Signal Processing - Rutgers ECE
10.4 Other FIR Design Methods, 558 10.5 Problems, 559 11 IIR Digital Filter Design 563 11.1 Bilinear Transformation, 563 11.2 First-Order Lowpass and Highpass Filters, 566 11.3 Second-Order Peaking and Notching Filters, 573 11.4 Parametric Equalizer Filters, 581 11.5 Comb Filters, 590 11.6 Higher-Order Filters…
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Signal Processing - Rutgers University, Electrical ...
www.ece.rutgers.eduDigital signal processing is everywhere. Today’s college students hear “DSP” all the timeintheireverydaylife—fromtheirCDplayers, ... digital signal ...
Maxwell’s Equations - Rutgers ECE
www.ece.rutgers.edu1 Maxwell’s Equations 1.1 Maxwell’s Equations Maxwell’s equations describe all (classical) electromagnetic phenomena: ∇∇×E =− ∂B ∂t
Series and Parallel Resonance - ece.rutgers.edu
www.ece.rutgers.eduas the series-resonant circuit and the second as the parallel-resonant circuit. The relevant equations and characteristic bell-shaped curves of the frequency response around resonance are given in section 2.
Wireless Networks - ece.rutgers.edu
www.ece.rutgers.eduIvan Marsic • Rutgers University 4 the messages to the base station in the cell of the intended recipient. In turn, this remote base station broadcasts the message within its cell for …
Reflection and Transmission - Rutgers University
www.ece.rutgers.eduthereof, the wave impedance and reflection coefficient remain unchanged. Indeed, we have in this case kl=2πl/λ π/ πand 2 . It follows from Eq. (5.1.12) that Γ = 2and hence Z. l=λ/ kl= π/4 = π/2 and 2kl=π. The reflection coefficient changes sign and the wave impedance inverts: Γ 1 =Γ 2e −2jkl=Γ 2e −jπ 2 ⇒ Z 1 =η 1 +Γ 1 1 ...
Maxwell’s Equations - Rutgers University
www.ece.rutgers.edu0 =8.854 ×10− farad/m μ 0 =4π×10−7 henry/m (1.3.2) The units for 0 and μ 0 are the units of the ratios D/Eand B/H, that is, coulomb/m2 volt/m = coulomb volt ·m = farad m, weber/m2 ampere/m = weber ampere ·m = henry m From the two quantities 0,μ 0, we can define two other physical constants, namely, the speed of light and the ...
Frequency Response of Filters - Rutgers University
www.ece.rutgers.eduDec 16, 2005 · HP 54600A or Agilent 54622A Oscilloscope 2: 620 Ω, 2: 1 KΩ, 2: 2KΩ, 2: 2.2KΩ, 20 KΩ Resistors 0.05 µF, 3: 0.1 µF, 0.01 µF Capacitors 741 Op-Amp Protoboard 4.1 Low Pass Filter Build the low pass filter circuit shown in fig. 7. Apply a sinusoidal input of amplitude 1V rms and display both input and output on the scope. V s ++--+ V0 +-2 ...
System Specification and Design: Parking Garage Automation
www.ece.rutgers.eduof a parking garage and develop a user-friendly mechanism that helps customers find and reserve available parking in the garage, either in advance or at the time of parking. Problem Statement The problems that are faced is as follows: Our customer owns a parking garage that lacks a computerized system for handling the logistics
Chapter Six Transient and Steady State Responses
www.ece.rutgers.educontrol systems and the corresponding MATLAB simulation results for the system transient response are presented in Sections 6.3 and 6.5. The steady state errors of linear control systems are defined in Section 6.4, and the feedback elements which help to reduce the steady state errors to zero are identified. In this section
3.1 State Space Models - Rutgers University
www.ece.rutgers.eduThe block diagram for this decomposition is given in Figure 3.1. U(s) V(s) V(s)/U(s) Y(s)/V(s) Y(s) Figure 3.1: Block diagram representation for (3.17) Equation (3.17a) has the same structure as (3.6), after the Laplace transformation is applied, which directly produces the state space system equation identical to (3.9). It remains to find ...
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