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[File Format] SimpleProjectV5 DL : 0: Induction machine PWM control using PI and ANFIS
Date : 2026-01-01 Size : 23kb User : venkat
[File Format] ZigBee-API- DL : 0: 此文件列举了 ZigBee2006 规范兼容 Z-Stack1.4.0 版本中所有组件的 API 接口。有关各个接口的细信息，包括数据结构和函数调用已做出详细说明，以便于程序员在开发过程中理解和使用。 PI 接口从上（应用层）至下依次介绍。-Z-Stack Programing for developer
Date : 2026-01-01 Size : 560kb User : Justin
[File Format] Switching-Power-Supply DL : 0: 开关电源，小功率的开关电源TNY型PI公司生产的开关电源-Switching Power Supply
Date : 2026-01-01 Size : 51.47mb User : 邹利伟
[File Format] fractal-use DL : 0: 分形的练习一 ①Koch曲线用复数的方法来迭代Koch曲线 clear i 防止i被重新赋值 A=[0 1] 初始A是连接（0，0）与（1，0）的线段 t=exp(i*pi/3) n=2 n是迭代次数 for j=0:n A=A/3 a=ones(1,2*4^j) A=[A (t*A+a/3) (A/t+(1/2+sqrt(3)/6*i)*a) A+2/3*a] end plot(real(A),imag(A)) axis([0 1 -0.1 0.8]) ②Sierpinski三角形 A=[0 1 0.5 0 0 1] 初始化A n=3 迭代次数 for i=1:n A=A/2 b=zeros(1,3^i) c=ones(1,3^i)/2 A=[A A+[c b] A+[c/2 c]] end for i=1:3^n patch(A(1,3*i-2:3*i),A(2,3*i-2:3*i), b ) patch填充函数 end -Fractal Exercise One The ① Koch curve Plural iteration Koch curve clear i to prevent i is reassigned A = [0 1] initial A is a connection (0,0) and (1,0) of the segments t = exp (i* pi/3) n = 2 n is the number of iterations for j = 0: n A = A/3 a = ones (1,2* 4 ^ j) A = [A (t* A+ a/3) (A/t+ (1/2+ sqrt (3)/6* i)* a) A+2/3* a] end plot (real (A), imag (A)) axis ([0 1-0.1 0.8]) ② Sierpinski triangle A = [0 1 0.5 0 0 1] initialized A n = 3 the number of iterations. for i = 1: n A = A/2 b = zeros (1,3 ^ i) c = ones (1,3 ^ i)/2 A = [A A+ [c b] A+ [c/2 c]] end for i = 1:3 ^ n patch (A (1,3* i-2: 3* i), A (2,3* i-2: 3* i), b ) patch filled function end
Date : 2026-01-01 Size : 43kb User : 郑志森
[File Format] mpi-pi DL : 0: 并行计算简单的MPI并行程序计算圆周率-Parallel computing simple MPI parallel program to calculate pi
Date : 2026-01-01 Size : 3kb User : 曹承宇
[File Format] AN4680 DL : 0: PMSM Electrical Parameters Measurement-The vector control, also known as the field-oriented control (FOC), of a permanent magnet synchronous motor (PMSM) is the algorithm often used in today’s advanced motor control drives. Such advanced motor control algorithms require the setting of motor electrical parameters for its proper functionality. This application note deals with the measurement of electrical parameters needed for vector control of PMSM. The electrical parameters are needed to set the current PI controller gains to get the desired closed-loop performance and for BEMF observer constants. The proposed measurement techniques determine a number of pole pairs, a stator resistance, synchronous inductances, and an electrical constant with common measurement equipment. A summary of PMSM sensorless control and explanation of motor control terms can be found in [1 ].
Date : 2026-01-01 Size : 2.15mb User : cx
[File Format] A-Monte-Carlo-model- DL : 0: 蒙特卡洛法求圆周率,在linux下用 g++ pi.cpp -o pi -lm 编译。-Monte Carlo method for pi, under linux with g++ pi.cpp-o pi-lm compiled.
Date : 2026-01-01 Size : 1kb User : 解尧
[File Format] 1995BQ3 DL : 0: sj w ljef poi4 tpov ia t jA:L4jut:itimc api4pt Pai4TC Pi
Date : 2026-01-01 Size : 37kb User : nnn nnn
[File Format] control-IdIq DL : 0: Control strategies for extracting the three-phase reference currents for shunt active power filters are compared, uating their performance under different source conditions with PI and Fuzzy Controllers in MATLAB/Simulink environment When the supply voltages are balanced and sinusoidal, the two control strategies are converge to the same compensation characteristics However, the supply voltages are distorted and/or un-balanced sinusoidal, these control strategies result in different degrees of compensation in harmonics. The compensation capabilities are not equivalent, with p-q control strategy unable to yield an adequate solution when source voltages are not ideal. Extensive simulations are carried out with PI controller and also with Fuzzy controller for both p-q and id-iq control strategies under different main voltages.-Control strategies for extracting the three-phase reference currents for shunt active power filters are compared, uating their performance under different source conditions with PI and Fuzzy Controllers in MATLAB/Simulink environment When the supply voltages are balanced and sinusoidal, the two control strategies are converge to the same compensation characteristics However, the supply voltages are distorted and/or un-balanced sinusoidal, these control strategies result in different degrees of compensation in harmonics. The compensation capabilities are not equivalent, with p-q control strategy unable to yield an adequate solution when source voltages are not ideal. Extensive simulations are carried out with PI controller and also with Fuzzy controller for both p-q and id-iq control strategies under different main voltages.
Date : 2026-01-01 Size : 1.16mb User : shatha
[File Format] ABDUL_SALAM_SAAD DL : 0: THREE PHASE INVERTER FOR INDUCTION MOTOR CONTROL USING FUZZY-PI CONTROLLER WITH ARDUINO
Date : 2026-01-01 Size : 651kb User : brahim hassen
[File Format] smart_health DL : 0: The e-Health Sensor Shield allows Arduino and Raspberry Pi users to perform biometric and medical applications where body monitoring is needed by using 9 different sensors. This information can be used to monitor in real time the state of a patient or to get sensitive data in order to be subsequently analyzed for medical diagnosis. Biometric information gathered can be wirelessly sent using any of the 6 connectivity options available: Wi-Fi, 3G, GPRS, Bluetooth, 802.15.4 and ZigBee depending on the application. This board is compatible with Arduino, Raspberry Pi and Intel Galileo boards.
Date : 2026-01-01 Size : 802kb User : vasim
[File Format] 241SVM-Feedback-Linearization-Control-of-Three-le DL : 0: This paper presents a nonlinear control scheme for back-to-back High Voltage Direct Current (HVDC) system based on feedback linearization control, using three-phase three-level voltage source converter. The design of the proposed nonlinear controller has been performed in a synchronous rotating reference frame (d-q) the aim to provide high dynamic performance, complete decouple control of active and reactive power and to maintain the DC bus voltage at its reference value. The objective of maintaining balanced voltages in DC-link capacitors is achieved by using the three-level space vector modulation with balancing strategy based on the effective use of the redundant switching states of the converters voltage vectors. Finally, some simulations results are presented and discussed in order to verify and compared the feasibility and effectiveness of the proposed control scheme with the conventional controller (PI).
Date : 2026-01-01 Size : 1.18mb User : zakary
[File Format] 1918918_903435429739568_8316914099512256577_n.jpg DL : 0: parametres d un régulateur pi
Date : 2026-01-01 Size : 82kb User : yass
[File Format] PID DL : 0: pi pd pid基于MATLAB控制编程算法实现-pi pd pid Implementation of control programming algorithm based on MATLAB
Date : 2026-01-01 Size : 2kb User : yang tack