Generic selectors Exact matches only Exact matches only Search in title Search in title Search in content Search in content Search in excerpt Search in posts Search in posts Search in pages Search in pages Hidden Filter by Categories MAGNETIC FORCES AND TORQUES 5.MAGNETIC FORCES AND TORQUES basics of bjt basics of bjt Bipolar Junction Transistors BJTs Bipolar Junction Transistors (BJTs) buliding blocks of integrated circuit amplifiers chaptet sedra and smith buliding blocks of integrated circuit amplifiers chaptet 8 sedra and smith chapter microelectronics by sedra and smith chapter 1 microelectronics by sedra and smith Chapter Sedra and smith MOS Field Effect Transistors MOSFETs Chapter 5 Sedra and smith MOS Field-Effect Transistors (MOSFETs) Chapter microelectronics by sedra and smith Chapter 7 microelectronics by sedra and smith CHAPTER Differential and Multistage Amplifiers CHAPTER 9 Differential and Multistage Amplifiers common source amplifier common source amplifier control systems by norman s nise control systems by norman s nise control systems engineering translational mechanical system control systems engineering - translational mechanical system digital signal processing digital signal processing electric circuit analysis RC transient analysis electric circuit analysis RC transient analysis electro magnetic wave propagation solved problems electro magnetic wave propagation solved problems electro magnetics electro magnetics faradays law of induction faradays law of induction fourier transform solved problems fourier transform solved problems Fundamentals of Applied Electromagnetics th Ed solutions Fundamentals of Applied Electromagnetics 7th Ed solutions Laplace transforms Laplace transforms mesh analysis soled poblems video mesh analysis soled poblems - video microelectronics by sedra and smith microelectronics by sedra and smith microelectronics sedra and smith chapter microelectronics sedra and smith chapter 4 nodal analysis solved problems nodal analysis solved problems operational amplifier solved problems operational amplifier solved problems probability statistics random variables probability statistics random variables sedra and smith sedra and smith signal processing and linear systems signal processing and linear systems Smith chart solved problems Smith chart solved problems Uncategorized Uncategorized Ask question Search Order By: ActiveCategoryClear Filter 0 Votes 0 Ans This fig shows the Bode diagram of an open loop transfer function G(s)H(s) that is part of a closed 18 viewsgulshan Asked question BODE PLOT 0 Votes 0 Ans The function that has the following magnitude bode plot is 21 viewsgulshan Asked question BODE PLOT 0 Votes 0 Ans Bode Piper 25 viewsgulshan Asked question BODE PLOT 0 Votes 0 Ans Proportional controller design by Bode plot 27 viewsgulshan Asked question BODE PLOT 0 Votes 0 Ans Find Bode Plot and evaluate a value of K that makes the system stable 23 viewsgulshan Asked question BODE PLOT 0 Votes 0 Ans Using the attached Bode plots: 22 viewsgulshan Asked question BODE PLOT 0 Votes 0 Ans Sketch the bode diagrams of the mechanical systems shown in figure (a) and (b) below: 18 viewsgulshan Asked question BODE PLOT 0 Votes 0 Ans The Bode plot below illustrates the behaviour of a filter with a cutoff frequency of 10k Hz. 18 viewsgulshan Asked question BODE PLOT 0 Votes 0 Ans Using Matlab to draw the Bode diagram for the following open loop transfer function: 16 viewsgulshan Asked question BODE PLOT 0 Votes 0 Ans 35%The body plot for the open loop transfer formation of a control system with k=200 is shown below 50 viewsgulshan Asked question BODE PLOT 0 Votes 2 Ans use smith chart to solve this problems -A 50 ohm lossless transmission line is terminated in a load of impedance 100-5100 ohm a. Find the reflection coefficient [ using smith chart • show your work on the Smith chart b- find the standing wave ratio -Label the point for such standing wave ratio on the smith chart as Pe show your work on the smith chart c. find the Input Impedance at 0037 from the load – Label the point for such impedance on the Smith chart as P2 • show your work on the Smith chart. d. find the shortest line length in terms of ✗ for which the input impedance is purely resistive point for such length on the Smith chart as p3. show your work on smith chart 96 viewshwmadeeasy Answered question Electro magnetics transmission lines 0 Votes 0 Ans Hi how are you 35 viewshwmadeeasy Asked question Signals and linear systems « Previous 1 2 Other topics 0 Questions SPICE simulations 0 Questions Digital signal processing 0 Questions MATLAB related 0 Questions Microelectronics BJTs MOSFET amplifier circuits 2 Questions Digital circuits 0 Questions Electro magnetics transmission lines 3 Questions Control system engineering 0 Questions 1 Child Signals and linear systems 1 Question Electric circuits 1 Question Question 14:) ...Read More Question 13:) ...Read More Question 12:) ...Read More Question 11 Find the inverse Laplace transform of the following ? ...Read More Question 10): ...Read More Question 9: f(t)=1(T)+2.1 (T-1)-3.1(T-3) ...Read More Question 8) :sin (9t) 1(t-6)? ...Read More Question 7.) ...Read More Questions 6.) ...Read More Questions 5-10 Find the Laplace transform of the following causal signals .Express the answer as a single rational function with a monic denominator. 5) f(t)=t cos(9t)1(t) ? ...Read More ‹ 1 2 3 4 … 10 ›
