Model for ECE: Direct Theory question: 1. A triangularsquare wave generator uses * A sine wave oscillator and a comparator * An integrator and a comparator * A diffrentiator and comparator * A sine wave oscillator and a clipper 2. An amplifier has two identical cascaded stages. Each stage has a BW of 20KHz. The overall BW shall be * 10KHz * 12.9KHz * 20KHz * 28.3HHz Direct numerical problem:  A parabolic dish antenna has a diameter of 1m. the maximum possible ideal gain of the antenna at a wavelength 3.14cm is
* 20 dB * 30 dB * 40 dB * 50 dB  The frequency deviation produced in a VHF carrier by a signal of 100Hz is 50KHz. The frequency modulation is
100 radians 250 radians 500 radians 750 radians Application based theoretical or numerical problem:  Which one of the pulses has the same form in time domain as well as in frequency domain
Rectangular Exponenetial Triangular Gaussian  Good voice reproduction via PCM requires 128 quantisation levels. If the BW of voice channel is 4KHz then data rate is
256 Kbps 128 Kbps 56 Kbps 28 Kbps  Match the following:
1. List 1 List2 A. Thyristor 1. Second break down B. MOSFET 2. Large onstate drop C. IGBT 3. Small on state drop D. BJT 4. Slow device Codes: (a) A4, B3, C2, D1 (b) A1, B2, C3, D4 (c) A4, B2, C3, D1 (d) A1, B3, C2, D4  List 1 List2
A. Free and forced response 1. Discrete time systems B. Z transform 2. Dirichlet conditions C. Probability theory 3. Nonhomogenous differential equation d. Fourier series 4. Random process Codes: (a) A1, B3, C2, D4 (b) A3, B1, C2, D4 (c) A1, B3, C4, D2 (d) A3, B1, C4, D2 Assertion and reasoning type: The following item consists of two statements labeled as Assertion A and the other as Reason R. Use the following codes: (a) Both A&R are individually true and R is the correct explanation of A (b) Both A & R are individually true and R is not the correct explanation of A (c) A is true and R is false (d) A is false and R is true  AEvery materials has a different value of energy band gap except metals which have no band gap
R The energy band gap is decided by the equilibrium lattice constant, which is different in different materials.  AOpamp are commonly used in instrumentation
R Opamps do not load the circuit due to their very high input impedance Problem based on circuits and graphs: Some examples: For circuits: HW rectifier, voltmeter, RC or RLC or RL transients, feedback systems, clipper, clamper, transistor biasing,555 circits, logic gates, counters, bridges and wattmeters. Graphs: Frequency response H(s),open loop gain from root loci, Nyquist plot, transfer functions etc
