Dear TSTRANSCO and TSGENCO Assistant engineer job aspirants,
Here I am adding few important and must read topics for electroics and communication engineering.
Engineering Mathematics:
1. Numerical Methods (Newtons raphson's method, RK method and Secant method).
2. Eigen values and eigen vectors.
3. Solution of system of linear equations (Many solutions, one solution etc).
4. Basic calculus like limits, integrations and differentiations.
5. Complex integration and finding residues of given complex function.
6. Order and degree of differential equation and their solutions.
7. Vector Calculus : Gradient, Div, Curl, Gauss theorem, stokes and greens theorem.
8. Finding Multiple integrals.
9. Finding area under curves.
10. Application of Tyler and power series.
Signals and Systems:
1. Fundamentals of signals (calculation of T, Pavg, Eavg, even, odd and etc.)
2. Fundamentals of systems( Linear, Non-linear, Stable, Unstable, Time variant, time invariant etc.)
3. Fourier Series( finding the existence of FS expansion of given signal and finding a0,an,bn)
4. Initial and Final Value theorem.
5. DFT and their properties
6. properties transforms.
Network Theory:
1. Basics (KCL,KCL,Mesh,Nodel)
2. Theorems(Th,N,Superposition, Max Power)
3. Two port Networks
4. Transient analysis
EDC:
1. Types of semiconductors.
2. Mass action law.
3. Calculation of concentration of holes and electrons in a given semiconductor.
4. Fermi level concepts
5. PN diode
6. Z-diode as voltage regulator
7. BJT operating principle
Analog Electronics:
1. Op-amp as positive and negative feedback.
2. Study of -ve feedback and calculation of Zin, Zout, Rin,Rout, A,\beta
3. DC and AC analysis of BJT and JFET
Digital Electronics:
1. Number system
2. Boolean algebra and k-map simplification techniques.
3. Combinational Ckts: Mux, decoder,encoder, HA,FA etc..
4. Sequential ckts: Counters and registers and details of all Flip Flops and their characteristic equations.
Control System:
1. SFG, Block diagram reduction
2. RH- criterion
3. steady state response
4. steady state error.
5. Bode plot (GM,PM, gain cross over freq and phase cross over freq)
6. root locus (find K)
7. Nyquist plot (GM,PM, gain cross over freq and phase cross over freq)
EMT:
1. Maxwell equations both diff and integral form
2. Polarization
3. Wave incidence
4. Transmission lines (finding Zin)
5. Wave guides ( rectangular-> calculation of f,\labda, Vp,Vg...)
Analog and Digital Communications:
1. Amplitude and Angular modulations.
2. Receivers
3. PCM, Delta modulation, FDM, TDM and SQNR of PCM
4. Digital Carrier modulations and their probability of error calculations.
4. Inter symbol interference and their mitigation.
5. Information theory: Channel capacity, entropy etc.
Books:Here I am adding few important and must read topics for electroics and communication engineering.
Engineering Mathematics:
1. Numerical Methods (Newtons raphson's method, RK method and Secant method).
2. Eigen values and eigen vectors.
3. Solution of system of linear equations (Many solutions, one solution etc).
4. Basic calculus like limits, integrations and differentiations.
5. Complex integration and finding residues of given complex function.
6. Order and degree of differential equation and their solutions.
7. Vector Calculus : Gradient, Div, Curl, Gauss theorem, stokes and greens theorem.
8. Finding Multiple integrals.
9. Finding area under curves.
10. Application of Tyler and power series.
Signals and Systems:
1. Fundamentals of signals (calculation of T, Pavg, Eavg, even, odd and etc.)
2. Fundamentals of systems( Linear, Non-linear, Stable, Unstable, Time variant, time invariant etc.)
3. Fourier Series( finding the existence of FS expansion of given signal and finding a0,an,bn)
4. Initial and Final Value theorem.
5. DFT and their properties
6. properties transforms.
Network Theory:
1. Basics (KCL,KCL,Mesh,Nodel)
2. Theorems(Th,N,Superposition, Max Power)
3. Two port Networks
4. Transient analysis
EDC:
1. Types of semiconductors.
2. Mass action law.
3. Calculation of concentration of holes and electrons in a given semiconductor.
4. Fermi level concepts
5. PN diode
6. Z-diode as voltage regulator
7. BJT operating principle
Analog Electronics:
1. Op-amp as positive and negative feedback.
2. Study of -ve feedback and calculation of Zin, Zout, Rin,Rout, A,\beta
3. DC and AC analysis of BJT and JFET
Digital Electronics:
1. Number system
2. Boolean algebra and k-map simplification techniques.
3. Combinational Ckts: Mux, decoder,encoder, HA,FA etc..
4. Sequential ckts: Counters and registers and details of all Flip Flops and their characteristic equations.
Control System:
1. SFG, Block diagram reduction
2. RH- criterion
3. steady state response
4. steady state error.
5. Bode plot (GM,PM, gain cross over freq and phase cross over freq)
6. root locus (find K)
7. Nyquist plot (GM,PM, gain cross over freq and phase cross over freq)
EMT:
1. Maxwell equations both diff and integral form
2. Polarization
3. Wave incidence
4. Transmission lines (finding Zin)
5. Wave guides ( rectangular-> calculation of f,\labda, Vp,Vg...)
Analog and Digital Communications:
1. Amplitude and Angular modulations.
2. Receivers
3. PCM, Delta modulation, FDM, TDM and SQNR of PCM
4. Digital Carrier modulations and their probability of error calculations.
4. Inter symbol interference and their mitigation.
5. Information theory: Channel capacity, entropy etc.
Practice Question papers: IES previous papers are best choice.
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