MCQs and Answers

MICROWAVE Engineering VIVA Questions :-

1. What is Microwave Engineering?
Ans. Microwave engineering is the study and design of microwave circuits , components , and systems. Fundamental principles are applied to analysis , design and measurement techniin this field.The short wavelengths involved distinguish this discipline from electronic engineering . This is because there are different interactions with circuits, transmissions and propagation characteristics at microwave frequencies.

2. Define s-matrix and its properties?
Ans. In a microwave junction there is an interaction of three or more components.There will be an output port, in addition there may be reflection from the junction of other ports. Totally there may be many combination, these are represented easily using a matrix called S matrix.
Properties of s- matrix
1. it possess symmetric properties sij=sji
2. it possess unitary property
3. [s][s]*=[i]

3. Write the applications of microwave engineering?
Ans. Following are the applications of microwave engineering-
1. Antenna gain is proportional to the electrical size of the antenna. At higher frequencies, more antenna gain is therefore possible for a given physical antenna size, which has important consequences for implementing miniaturized microwave systems.
2. More bandwidth can be realized at higher frequencies. Bandwidth is critically important because available frequency bands in the electromagnetic spectrum are being rapidly depleted.
3. Microwave signals travel by line of sight are not bent by the ionosphere as are lower frequency
signals and thus satellite and terrestrial communication links with very high capacities are possible.

4. Why is s-matrix used in MW analysis?
Ans. Matrix is used in MW analysis to overcome the problem which occurs when H,Y & Z parameter are used in high frequencies.

5. What are the advantages of ABCD matrix?
Ans. The advantages of ABCD matrix are as follows-
1. They are used in power transmission lines
2. They are helpful in case of cascade networks.

6. What are junctions ? Give some example
Ans. A microwave circuit consists of several microwave devices connected in some way to achieve the desired transmission of MW signal. The interconnection of two or more microwave may be regarded as MW junction.
E.g.: TEE, HYBRID RING

7. What are non-reciprocal devices ?Give two examples?
Ans. The devices which are having the properties that the forward characteristics are not equal to the reverse characteristics are called non-reciprocal devices.

8. What are the applications of reflex klystron?
Ans. The main applications of a reflex klystron are as follows-
1. Signal source in MW generator
2. Local oscillators in receivers
3. It is used in FM oscillator in low power MW links.
4. In parametric amplifier as pump source.

9. What is the purpose of slow wave structures used in TWT amplifiers?
Ans. Slow wave structures are special circuits that are used in microwave tubes to reduce wave velocity in a certain direction so that the electron beam and the signal wave can interact. In TWT, since the beam can be accelerated only to velocities that are about a fraction of the velocity of light, slow wave structures are used.

10. Give two examples for two port junctions?
Ans. Following are the two examples of two port junctions-
1. The junction of two rectangular guides of unequal height
2. A symmetrical junction consisting of two similar rectangular guides joined by an Intermediate guide of greater width.

11. Which frequency is used in Microwave Oven?
12. What is the speed of Electromagnetic waves in free space?
13. How EM wave Propagates?
14. What is Ampere’s law?
15. what is Faraday’s law?
16. What is Gauss law?
17. What is mean by TEM wave?
18. What is mean by TE wave?
19. What is mean by TM wave?
20. What is mean by HE wave?
21. What is the role of Transmission line?
22. How many types of transmission lines are there?
23. What is the bandwidth of two wire transmission line?
24. Define Reflection coefficient?
25. Define VSWR?
26. What are the various losses occurred in transmission lines?
27. What is Stub and what are the various types?
28. What is single stub matching?
29. What is Double stub matching?
30. What is Wave guide?
31. Microwave travels in which form?
32. What are the various transmission lines for microwaves?
33. Multi conductor lines supports which mode of waves?
34. Single conductor lines supports which mode of waves?
35. Open Boundary structure supports which waves?
36. Which transmission line are unbalanced transmission lines?
37. What is mean by Dominant mode?
38. What is the dominant mode in Co axial line?
39. What are the lower order and higher order modes in co axial cables?
40. At which frequencies strip lines are widely used?
41. What is the dominant mode for strip line?
42. What are the losses in micro strip lines and how those can be compensated?
43. Which mode does not exist in micro strip lines?
44. Which transmission line has higher Quality factor?
45. What are the various types of micro strip lines?
46. Parallel strip lines supports which mode?
47. Why micro strip antenna are more popular?
48. What are the general modes in wave guides?
49. Define Phase velocity and Group velocity?
50. What is the dominant mode in Circular wave guide?
51. What are the main advantages of microwave integrated circuits?
52. What is planar transmission line?

DIGITAL IMAGE PROCESSING VIVA Questions :-

1. Define Image?
An image may be defined as two dimensional light intensity function f(x, y) where x and y denote spatial co-ordinate and the amplitude or value of f at any point (x, y) is called intensity or gray scale or brightness of the image at that point.

2. What is Dynamic Range?
The range of values spanned by the gray scale is called dynamic range of an image. Image will have high contrast, if the dynamic range is high and image will have dull washed out gray look if the dynamic range is low.

3. Define Brightness?
Brightness of an object is the perceived luminance of the surround. Two objects with different surroundings would have identical luminance but different brightness.

4. What do you meant by Gray level?
Gray level refers to a scalar measure of intensity that ranges from black to grays and finally to white.

5. What do you meant by Color model?
A Color model is a specification of 3D-coordinates system and a subspace within that system where each color is represented by a single point.

6. List the hardware oriented color models?
1. RGB model
2. CMY model
3. YIQ model
4. HSI model

7. What is Hue and saturation?
Hue is a color attribute that describes a pure color where saturation gives a measure of the degree to which a pure color is diluted by white light.

8. List the applications of color models?
1. RGB model— used for color monitors & color video camera
2. CMY model—used for color printing
3. HIS model—-used for color image processing
4. YIQ model—used for color picture transmission

9. What is Chromatic Adoption?
The hue of a perceived color depends on the adoption of the viewer. For example,the American Flag will not immediately appear red, white, and blue of the viewer has been subjected to high intensity red light before viewing the flag. The color of the flag will appear to shift in hue toward the red component cyan.

10. Define Resolutions?
Resolution is defined as the smallest number of discernible detail in an image.Spatial resolution is the smallest discernible detail in an image and gray level resolution refers to the smallest discernible change is gray level.

11. What is meant by pixel?
A digital image is composed of a finite number of elements each of which has a particular location or value. These elements are referred to as pixels or image elements or picture elements or pixls elements.

12. Define Digital image?
When x, y and the amplitude values of f all are finite discrete quantities , we call the image digital image.

13. What are the steps involved in DIP?
1. Image Acquisition
2. Preprocessing
3. Segmentation
4. Representation and Description
5. Recognition and Interpretation

14. What is recognition and Interpretation?

Recognition means is a process that assigns a label to an object based on the information provided by its descriptors.Interpretation means assigning meaning to a recognized object.

15. Specify the elements of DIP system?
1. Image Acquisition
2. Storage
3. Processing
4. Display

16. List the categories of digital storage?
1. Short term storage for use during processing.
2. Online storage for relatively fast recall.
3. Archival storage for infrequent access.

17. What are the types of light receptors?
The two types of light receptors are

1. Cones and
2. Rods

18. Differentiate photopic and scotopic vision ?
Photopic vision Scotopic vision
1. The human being can resolve the fine details with these cones because each one is connected to its own nerve end.
2. This is also known as bright light vision.

19. How cones and rods are distributed in retina?
In each eye, cones are in the range 6-7 million and rods are in the range 75-150 million.

20. Define subjective brightness and brightness adaptation?
Subjective brightness means intensity as preserved by the human visual system.Brightness adaptation means the human visual system can operate only from scotopic to glare limit. It cannot operate over the range simultaneously. It accomplishes this large variation by changes in its overall intensity.

21. Define weber ratio?

The ratio of increment of illumination to background of illumination is called as web er ratio.(ie) Δi/i
If the ratio (Δi/i) is small, then small percentage of change in intensity is needed (ie) good brightness adaptation.
If the ratio (Δi/i) is large , then large percentage of change in intensity is needed (ie) poor brightness adaptation.

22. What is meant by mach band effect?
Mach band effect means the intensity of the stripes is constant. Therefore it preserves the brightness pattern near the boundaries, these bands are called as mach band effect.

23. What is simultaneous contrast?
The region reserved brightness not depend on its intensity but also on its background. All centre square have same intensity. However they appear to the eye to become darker as the background becomes lighter.

24. What is meant by illumination and reflectance?
Illumination is the amount of source light incident on the scene. It is represented as i(x, y).
Reflectance is the amount of light reflected by the object in the scene. It is represented by r(x, y).

26. Define sampling and quantization?
Sampling means digitizing the co-ordinate value (x, y).Quantization means digitizing the amplitude value. Several rods are connected to one nerve end. So it gives the overall picture of the image.This is also known as thin lightvision.

30. What Are The Properties Of Haar Transform?

• Haar transform is real and orthogonal.
• Haar transform is a very fast transform
• Haar transform has very poor energy compaction for images
• The basic vectors of Haar matrix sequency ordered.

31. What Are The Properties Of Slant Transform?

• Slant transform is real and orthogonal.
• Slant transform is a fast transform
• Slant transform has very good energy compaction for images
• The basic vectors of Slant matrix are not sequency ordered.

32. Define Of Kl Transform?

KL Transform is an optimal in the sense that it minimizes the mean square error between the vectors X and their approximations X^. Due to this idea of using the Eigenvectors corresponding to largest Eigen values. It is also known as principal component transform.

33. Justify That Klt Is An Optimal Transform?

Since mean square error of reconstructed image and original image is minimum and the mean value of transformed image is zero so that uncorrelated.

34. Explain The Term Digital Image?

The digital image is an array of real or complex numbers that is represented by a finite no of bits.

35. Write Any Four Applications Of Dip?

1. Remote sensing
2. Image transmission and storage for business application
3. Medical imaging
4. Astronomy

36. What Is The Effect Of Mach Band Pattern?

The intensity or the brightness pattern perceive a darker stribe in region D and brighter stribe in region B.This effect is called Mach band pattern or effect.

37. Write Down The Properties Of 2d Fourier Transform?

• Separability
• Translation
• Periodicity and Conjugate property
• Rotation
• Distributivity and scaling
• Average value
• Convolution and Correlation
• Laplacian

38.Obtain The Hadamard Transformation For N = 4?

N = 4 = 2n

=> n = 2

39. Write Down The Properties Of Haar Transform?

• Real and orthogonal
• Very fast transform
• Basis vectors are sequentially ordered
• Has fair energy compaction for image
• Useful in feature extraction,image coding and image analysis problem

40. What Is Image Enhancement?

Image enhancement is to process an image so that the output is more suitable for specific application.

41. Name The Categories Of Image Enhancement And Explain?

The categories of Image Enhancement are

• Spatial domain
• Frequency domain Spatial domain: It refers to the image plane, itself and it is based on direct manipulation of pixels of an image.
• Frequency domain techniques are based on modifying the Fourier transform of an image.

42. What Do You Mean By Point Processing?

Image enhancement at any Point in an image depends only on the gray level at that point is often referred to as Point processing.

43. Explain Mask Or Kernels?

A Mask is a small two-dimensional array, in which the value of the mask coefficient determines the nature of the process, such as image sharpening.

44. What Is Image Negatives?

The negative of an image with gray levels in the range [0, L-1] is obtained by using the negative transformation, which is given by the expression.

s = L-1-r

Where s is output pixel.

r is input pixel.

45. Define Histogram?

The histogram of a digital image with gray levels in the range [0, L-1] is a discrete function h (rk) = nk, where rk is the kth gray level and nk is the number of pixels in the image having gray level rk.

46. Define Derivative Filter?

For a function f (x, y), the gradient f at co-ordinate (x, y) is defined as the

vector_f = _f/_x

_f/_y

_f = mag (_f) = {[(_f/_x) 2 +(_f/_y) 2 ]} ½

47. Explain Spatial Filtering?

Spatial filtering is the process of moving the filter mask from point to point in an image. For linear spatial filter, the response is given by a sum of products of the filter coefficients, and the corresponding image pixels in the area spanned by the filter mask.

48. Define Averaging Filters?

The output of a smoothing, linear spatial filter is the average of the pixels contain in the neighborhood of the filter mask. These filters are called averaging filters.

49. What Is A Median Filter?

The median filter replaces the value of a pixel by the median of the gray levels in the neighborhood of that pixel.

50. What Is Maximum Filter And Minimum Filter?

The 100th percentile is maximum filter is used in finding brightest points in an image. The 0th percentile filter is minimum filter used for finding darkest points in an image.

DIGITAL IMAGE PROCESSING Questions Pdf Free Download ::

MPMC LAB VIVA Questions :-

1.What is a Microprocessor?
It is a CPU fabricated on a single chip, program-controlled device, which fetches the instructions from memory, decodes and executes the instructions.

2. Define bit, byte and word.
Bit is either 0 or 1.
Byte is group of 8 bits.
Word is group of 16 bits.

3.What are the different functional units in 8086?
2 units-Bus Interface Unit (BIU) and Execution unit (EU)

4. What is the function of BIU ?
It is used to generate the 20-bit physical address and is responsible for performing all external bus operations.

5. What is the function of EU?
Execution Unit receives program codes and data from BIU, executes these instructions and store the result.

6. What is the maximum size of segment in 8086 microprocessor?
64KB.

7. What is general purpose registers in 8086?
There are 4 general purpose registers are there.

1. AX-ACCUMULATOR
2. BX- BASE
3. CX- COUNT
4. DX-DATA (Extended accumulator)

8. What are the functions of General purpose Registers?

• AX register as 16-bit accumulator, stores all arithmetic and logical operation’s results.
• BX register is used as an offset address Storage.
• CX register is used as counter. Especially used in loop, shift, rotate instructions.
• DX register is used in port operations (IN and OUT)

9. What is special purpose registers in 8086?
CS- CODE SEGMENT
DS-DATA SEGMENT
ES-EXTRA SEGMENT
SS-STACK SEGMENT
BP-BASE POINTER
IP-INSTRUCTION POINTER
SP- STACK POINTER
SI-SOURCE INDEX
DI-DESTINATION INDEX
FLAG REGISTER

10. What are the functions of base Registers?
CS stores program code,
DS stores data
ES sores extra data
SS stores stack data.

11. Name the pin in 8086 microprocessor that is used for selecting mode of operation?
29th pin-MN/MX’
If MN/MX’=0 then maximum mode is selected.
MN/MX’=1 then minimum mode is selected.

12. What is Segment address in 8086?
The part of the segment starting address stored in a segment register is called the segment address.

13. What are the flags in 8086?
In 8086, 9 flags are there. Out of 9, 6 are conditional (status) flags and 3 control flags.
Conditional (status) flags:
Carry flag (CF), Parity flag (PF), Auxiliary carry flag (CF), Zero flag (ZF), Overflow flag (OF), and Sign flag(SF)
Control flags:
Trap flag (TF), Direction flag (DF), Interrupt flag (IF),

14. What is Tri-state logic?
Three Logic Levels are used and they are High (logic 1), Low(logic 0), High impedance(Z) state. The high and low are normal logic levels & high impedance state is electrical open circuit conditions.

15. What is system bus?
Group of address, data and control buses.
Address bus: carry the Address to the memory to fetch either Instruction or Data.
Data bus: carry the Data from the memory.
Control bus: carry the Control signals like RD/WR, reset, ready etc.

16. What is the difference between Maskable interrupts and Non-Maskable interrupts?
An interrupt that can be turned off by the programmer is known as Maskable interrupt.
An interrupt which can be never be turned off (i.e. disabled) is known as Non-Maskable interrupt.

17. What are the different types of Addressing Modes?
There are 12 different types of Addressing Modes. They are:-

1. Immediate:- The Immediate data is a part of instruction.
2. Direct:- A 16-bit memory address (offset) is directly specified in the instruction as a part of it.
3. Register:- Data is stored in a register.
4. Register Indirect:- The address of the memory location which contains data or operand is determined in an indirect way.
5. Indexed:- offset of the operand is stored in one of the index registers.
6. Register Relative:- The data is available at an effective address formed by adding an 8-bit or 16-bit displacement with the content of any one of the registers BX,BP,SI and DI in the default (either DS or ES) segment.
7. Based Indexed:- The effective address of the data is formed, in this addressing mode,by adding content of a base register to the content of an index register.
8. Relative Based Indexed:-  The effective address is formed by adding an 8 or 16-bit displacement with the sum of contents of any one of the base registers and any one of the index registers, in the default segment.
9. Intrasegment Direct Mode:- In this mode, the address to which the control is to bve transferred lies in the segment in which the control transfer instruction lies and appears directly in the instruction as an immediate displacement value.
10. Intrasegment Indirect Mode:- In this mode, the displacement to which the control is to be transferred, is in the same segment in which the control transfer instruction lies, but it is passed to the instruction indirectly.
11. Intersegment Direct:- In this mode, the address to which the control is to be transferred is in a different segment.
12. Intersegment Indirect:- In this mode, the address to which the control is to be transferred lies in a different segment and it is passed to the instruction indirectly sequentially.

18. What is baud rate?
The baud rate is the rate at which the serial data are transmitted. Units- symbols per second.

19. What is a port?
The port is a buffered I/O, which is used to hold the data transmitted from the processor to I/O device or vice-versa.

20. What is 8255?
It is PPI- Programmable Peripheral Interface. it is used to connect I/O devices to microprocessor and supports parallel communication.

21.What are Flag registers?

22.Write the flags of 8086?

23. What are the interrupts of 8086?

24. How clock signal is generated in 8086? What is the maximum internal clock frequency of 8086?

25. Write the special functions carried by the general purpose registers of 8086?

26.What is the need for Port?

27.What is a port?

28.What is processor cycle (Machine cycle)?

29.What is Instruction cycle?

30.What is fetch and execute cycle?

31. In how many ways computer soft wares are categorized?
32. Explain the two types of software?
33. What is an editor?
34. What is an OS and what are its functions?
35. What are the different types of assemblers used?
36. What is a linker?
37. What is a locator?
38. What is coprocessor?
39. What is a coprocessor trap?
40. What is a debugger?
41. In how many groups can the signals of 8085 be classified?
42. What is meant by the statement that 8085 is a 8 bit microprocessor?
43. What is the operating frequency of 8085?
44. What is the purpose of CLK signals of 8085?
45. What are the widths of data bus (DB) and address bus (AB) of 8085?
46. What is the distinguishing feature of DB and AB?
47. The address capability of 8085 is 64 KB.Explain?
48. Does 8085 have serial I/O control?
49. Mention the addressing modes of 8085?
50. What jobs ALU of 8085 can perform?
51. How many hardware interrupts 8085 supports?
52. How many I/O ports can 8085 access?
53. Why the lower byte address bus(A0-A7) and data bus (D0-D7) are multiplexed?
54. List the various registers of 8085?
55. Describe the accumulator register of 8085?
56. What are the temporary registers of 8085?
57. Describe the general purpose registers of 8085?
58. Which are sixteen bit registers of 8085?
59. Discuss PC and SP?
60. Describe the instruction register of 8085?
61. Describe the (status) flag register of 8085?
62. What is the function of ALE and how does it works?
63. Explain the functions of the two DMA signals HOLD and HLDA?
64. Discuss 3 states signals IO/M,S0,S1?
65. What happens when RESET IN(LOW) signal goes low?
66. Function of RESET OUT signal.
67. Indicate different machine cycles of 8085?
68. Name the special purpose registers?
69. Does ALU have any storage facility?
70. Explain XTHL,DAA,RC instructions.
71. What is the difference between JMP and CALL?
72. What happens when CALL instruction is executed?
73. Mention interrupts pins of 8085?
74. Explain maskable and non maskable interrupts?
75. Which is non maskable interrupt for 8085?
76. Do the interrupts of 8085 have priority?
77. What is meant by priority of interrupt?
78. Mention the types of interrupts that 8085 supports?
79. What is the software interrupts of 8085?
80. Explain the software instruction EI and DI?
81. Explain SIM and RIM instructions?
82. What is polling?
83. What is stack?
84. Why stack is used in program?
85. How the stack is initialized?
86. What the SP register does in a program?
87. Comment the size of stack?
88. What type of memory is the stack?
89. What are the software instructions related to stack operations?
90. What are the typical errors associated with using stack in a program?
91. What is a subroutine?
92. Why subroutine used in programs?
93. How subroutine can be called from the main program and how the program returns from the subroutine?
94. Byte wise what are the lengths of CALL and RET instructions?
95. Explain SPHL instruction?
96. Which are the different data transfer schemes?
97. Mention the types of programmed data transfer?
98. Explain DMA?
99. What is meant by address space? what is meant by address space partitioning?
100.Explain memory mapped I/O and I/O mapped I/O schemes?

EMBEDDED SYSTEMS LAB VIVA Questions :-

1. What is an embedded system?
An embedded system is a special purpose computer system which is completely encapsulated by device it control. It is a programmed hardware device in which the hardware chip is programmed with specific function. It is a combination of hardware and software.

2. What are the characteristics of embedded system?
The Characteristics of the embedded systems are as follows-

• Sophisticated functionality
• Real time behavior
• Low manufacturing cost
• Low power consumption
• User friendly
• Small size

3. What are the types of embedded system?
They are of 4 types

1. General computing
2. Control System
3. Digital Signal Processing
4. Communication and network

4. What is digital signal controller ?
DSC is 16 bit RISC machine that combines control advantages of micro-controller and digital signal processing to produce tightly coupled single chip-single instruction stream solution for embedded system design.

5. What are the components of embedded system?
Microcontroller, microprocessor, DSC, DSP, busses, system clock, Read only Memory(ROM), RAM, Real time clock these are the components of embedded system.

6. Why we use embedded systems?
Embedded systems avoid lots of electronic components and they have rich built in functionality. They reduces the cost and maintenance cost and the probability of failure of embedded system is less so embedded system are in very much use now a days.

7. What are the languages used in embedded system?
Assembly language and C are basically used for embedded system. Java and ADA are also preferred.

8. How does combination of functions reduce memory reuirement in embedded system?
By using functions the amount of code that has to be dealt with is reduced thus redundancy is eliminated for everything common in function.

9. What is the significance of watchdog timer in ES?
It is a timing device which is set to predefined time interval and some task is to be performed at that time. It is used to reset original state when an inappropriate event take place.It is usually operated by counter device.

10. What is the difference between mutexes and semaphores?
Semaphores are the synchronization tool to overcome critical section problem.
Mutex is also a tool that is used to provide deadlock free mutual exclusion. It protects access to every critical data item, if the data is locked and is in use,it either waits for the thread to finish or awakened to release the lock from its inactive state.

11. What is the difference between FIFO and the memory?
FIFO (first in first out) is a memory structure where data’s can be stored and retrieved. This is a ueue where memory is a storage device which can hold data’s dynamically or at any desired locations and can be retrieved in any order.

12. What is an anti-aliasing filter?
Anti-aliasing filter reduces errors due to aliasing.

13. How to implement a fourth order Butter worth LP filter at 1 KHz if sampling freuency is 8 KHz?
A fourth order butter worth filter can be made as cascade of two second order LP filters with zeta of 0.924 and 0.383. One can use a bilinear transformation approach for realising second order LP filters. Using this techniue described well in many texts, one can make second order LP filters and cascade them

14. Is 8085 an embedded system?
It’s not an embedded system. B’coz it will be a part of an embedded system and it does not work on any software.

15.What is the role of segment register?
In the 8086 processor architecture, memory addresses are specified in two parts called the segment and the offset. Segment values are stored in the segment registers. There are four or more segment registers: Code Segment (CS) contains segment of the current instruction (IP is the offset), Stack segment (SS) contain stack of the segment (SP is the offset), DS is the segment used by default for most data operations; ES is an extra segment register.

16.What type of registers contains an INTEL CPU?
Special function registers like accumulator, program controller (PC), data pointer (DPTR), TMOD and TCON (timing registers), 3 register banks with r0 to r7, Bit addressable registers like B.

17. What is the difference between microprocessor and micro controller?
Microprocessor is managers of the resources (I/O, memory) which lie out-side of its architecture.
Micro controllers have I/O, memory etc. built into it and specifically designed for control.

18. DMA deals with which address (physical/virtual addresses)?
DMA deals with physical addresses. DMA controller is a device which directly drives the data and address bus during data transfer. So it is purely physical address.

19. What is the difference between testing and verification?
Verification is a front end process and testing is a post silicon process. Verification is to verify the functionality of the design during the design cycle. Testing is find manufacturing faults.

EMBEDDED SYSTEMS LAB VIVA Questions and Answers

EDC LAB VIVA Questions :-

1. What is Electronic?
The study and use of electrical devices that operate by controlling the flow of electrons or other electrically charged particles.

2. What is communication?
Communication means transferring a signal from the transmitter which passes through a medium then the output is obtained at the receiver. (or)communication says as transferring of message from one place to another place called communication.

3. Different types of communications? Explain.
Analog and digital communication.
As a technology, analog is the process of taking an audio or video signal (the human voice) and translating it into electronic pulses. Digital on the other hand is breaking the signal into a binary format where the audio or video data is represented by a series of “1”s and “0”s.
Digital signals are immune to noise, quality of transmission and reception is good, components used in digital communication can be produced with high precision and power consumption is also very less when compared with analog signals.

4. What is sampling?
The process of obtaining a set of samples from a continuous function of time x(t) is referred to as sampling.

5. State sampling theorem?
It states that, while taking the samples of a continuous signal, it has to be taken care that the sampling rate is equal to or greater than twice the cut off frequency and the minimum sampling rate is known as the Nyquist rate.

6. What is cut-off frequency?
The frequency at which the response is -3dB with respect to the maximum response.

7. What is pass band?
Passband is the range of frequencies or wavelengths that can pass through a filter without being attenuated.

8. What is stop band?
A stopband is a band of frequencies, between specified limits, in which a circuit, such as a filter or telephone circuit, does not let signals through, or the attenuation is above the required stopband attenuation level.

9. Explain RF?
Radio frequency (RF) is a frequency or rate of oscillation within the range of about 3 Hz to 300 GHz. This range corresponds to frequency of alternating current electrical signals used to produce and detect radio waves. Since most of this range is beyond the vibration rate that most mechanical systems can respond to, RF usually refers to oscillations in electrical circuits or electromagnetic radiation.

10. What is modulation? And where it is utilized?

Modulation is the process of varying some characteristic of a periodic wave with an external signals.
Radio communication superimposes this information bearing signal onto a carrier signal.
These high frequency carrier signals can be transmitted over the air easily and are capable of travelling long distances.
The characteristics (amplitude, frequency, or phase) of the carrier signal are varied in accordance with the information bearing signal.
Modulation is utilized to send an information bearing signal over long distances.

11. What is demodulation?
Demodulation is the act of removing the modulation from an analog signal to get the original baseband signal back. Demodulating is necessary because the receiver system receives a modulated signal with specific characteristics and it needs to turn it to base-band.

12. Name the modulation techniques?
For Analog modulation–AM, SSB, FM, PM and SM
Digital modulation–OOK, FSK, ASK, Psk, QAM, MSK, CPM, PPM, TCM, OFDM

13. Explain AM and FM?
AM-Amplitude modulation is a type of modulation where the amplitude of the carrier signal is varied in accordance with the information bearing signal.
FM-Frequency modulation is a type of modulation where the frequency of the carrier signal is varied in accordance with the information bearing signal.

14. Where do we use AM and FM?
AM is used for video signals for example TV. Ranges from 535 to 1705 kHz.
FM is used for audio signals for example Radio. Ranges from 88 to 108 MHz.

15. What is a base station?
Base station is a radio receiver/transmitter that serves as the hub of the local wireless network, and may also be the gateway between a wired network and the wireless network.

16. How many satellites are required to cover the earth?
3 satellites are required to cover the entire earth, which is placed at 120 degree to each other. The life span of the satellite is about 15 years.

17. What is a repeater?
A repeater is an electronic device that receives a signal and retransmits it at a higher level and/or higher power, or onto the other side of an obstruction, so that the signal can cover longer distances without degradation.

18. What is an Amplifier?
An electronic device or electrical circuit that is used to boost (amplify) the power, voltage or current of an applied signal.

19. Example for negative feedback and positive feedback?
Example for –ve feedback is —Amplifiers And for +ve feedback is – Oscillators.

20. What is Oscillator?
An oscillator is a circuit that creates a waveform output from a direct current input. The two main types of oscillator are harmonic and relaxation. The harmonic oscillators have smooth curved waveforms, while relaxation oscillators have waveforms with sharp changes.

21. What is an Integrated Circuit?
An integrated circuit (IC), also called a microchip, is an electronic circuit etched onto a silicon chip. Their main advantages are low cost, low power, high performance, and very small size.

22. What is crosstalk?
Crosstalk is a form of interference caused by signals in nearby conductors. The most common example is hearing an unwanted conversation on the telephone. Crosstalk can also occur in radios, televisions, networking equipment, and even electric guitars.

23. What is resistor?
A resistor is a two-terminal electronic component that opposes an electric current by producing a voltage drop between its terminals in proportion to the current, that is, in accordance with Ohm’s law:
V = IR.

25. What is inductor?
An inductor is a passive electrical device employed in electrical circuits for its property of inductance. An inductor can take many forms.

26. What is conductor?
A substance, body, or device that readily conducts heat, electricity, sound, etc. Copper is a good conductor of electricity.

27. What is a semi conductor?
A semiconductor is a solid material that has electrical conductivity in between that of a conductor and that of an insulator(An Insulator is a material that resists the flow of electric current. It is an object intended to support or separate electrical conductors without passing current through itself); it can vary over that wide range either permanently or dynamically.

28. What is diode?
In electronics, a diode is a two-terminal device. Diodes have two active electrodes between which the signal of interest may flow, and most are used for their unidirectional current property.

29. What is transistor?
In electronics, a transistor is a semiconductor device commonly used to amplify or switch electronic signals. The transistor is the fundamental building block of computers, and all other modern electronic devices. Some transistors are packaged individually but most are found in integrated circuits.

30. What is op-amp?
An operational amplifier, often called an op-amp , is a DC-coupled high-gain electronic voltage amplifier with differential inputs[1] and, usually, a single output. Typically the output of the op-amp is controlled either by negative feedback, which largely determines the magnitude of its output voltage gain, or by positive feedback, which facilitates regenerative gain and oscillation.

31. What is a feedback?
Feedback is a process whereby some proportion of the output signal of a system is passed (fed back) to the input. This is often used to control the dynamic behaviour of the system.

32. Advantages of negative feedback over positive feedback?
Much attention has been given by researchers to negative feedback processes, because negative feedback processes lead systems towards equilibrium states. Positive feedback reinforces a given tendency of a system and can lead a system away from equilibrium states, possibly causing quite unexpected results.

33. What is Barkhausen criteria?
Barkhausen criteria, without which you will not know which conditions, are to be satisfied for oscillations.
“Oscillations will not be sustained if, at the oscillator frequency, the magnitude of the product of the
transfer gain of the amplifier and the magnitude of the feedback factor of the feedback network ( the magnitude of the loop gain ) are less than unity”.
The condition of unity loop gain -Aβ = 1 is called the Barkhausen criterion. This condition implies that
Aβ= 1and that the phase of – Aβ is zero.

34. What is CDMA, TDMA, FDMA?
Code division multiple access (CDMA) is a channel access method utilized by various radio communication technologies. CDMA employs spread-spectrum technology and a special coding scheme (where each transmitter is assigned a code) to allow multiple users to be multiplexed over the same physical channel. By contrast, time division multiple access (TDMA) divides access by time, while frequency-division multiple access (FDMA) divides it by frequency.
An analogy to the problem of multiple access is a room (channel) in which people wish to communicate with each other. To avoid confusion, people could take turns speaking (time division), speak at different pitches (frequency division), or speak in different directions (spatial division). In CDMA, they would speak different languages. People speaking the same language can understand each other, but not other people. Similarly, in radio CDMA, each group of users is given a shared code. Many codes occupy the same channel, but only users associated with a particular code can understand each other.

35. explain different types of feedback?
Types of feedback:
Negative feedback: This tends to reduce output (but in amplifiers, stabilizes and linearizes operation). Negative feedback feeds part of a system’s output, inverted, into the system’s input; generally with the result that fluctuations are attenuated.
Positive feedback: This tends to increase output. Positive feedback, sometimes referred to as “cumulative causation”, is a feedback loop system in which the system responds to perturbation (A perturbation means a system, is an alteration of function, induced by external or internal mechanisms) in the same direction as the perturbation. In contrast, a system that responds to the perturbation in the opposite direction is called a negative feedback system.
Bipolar feedback: which can either increase or decrease output.

36. What are the main divisions of power system?
The generating system,transmission system,and distribution system.

37. What is Instrumentation Amplifier (IA) and what are all the advantages?
An instrumentation amplifier is a differential op-amp circuit providing high input impedances with ease of gain adjustment by varying a single resistor.

38. What is meant by impedance diagram?
The equivalent circuit of all the components of the power system are drawn and they are interconnected is called impedance diagram.

39. What is the need for load flow study?
The load flow study of a power system is essential to decide the best operation existing system and for planning the future expansion of the system. It is also essential for designing the power system.

40. What is the need for base values?
The components of power system may operate at different voltage and power levels. It will be convenient for analysis of power system if the voltage, power, current ratings of the components of the power system is expressed with referance to a common value called base value.

41.Why are the coupling capacitors required?
To filter the Dc term from the Input signal , Collector output in amplifiers.

42.What is meant by thermal stabilization?
Maintain a constant operating point when temperature varies

43.Explain why reversal of phase occurs in a BJT CE Amplifier.
As Base voltage increases, base current increases, then collector current increases so voltage drop across Rc increases so out put voltage decreses.

44.What happens if an amplifier is biased at cutoff or at saturation?
In cutoff region Ic is 0, in saturation region Vce is almost Zero.

45.What is the significance of the bandwidth of an amplifier?
Bandwidth specifies the input signal frequency range that can be applied to amplifier to get maximum gain.

46.What is meant by Gain-Bandwidth Product? What is its significance?
The name itself expressing it is the product of gain of a device and its bandwidth. For any system (circuit) gain bandwidth product is constant, if gain increases bandwidth decreases vice versa.

47.What are the advantages of using a FET instead of a BJT?
FET has high input impedance, lower noise, low to medium gain,

48.What are the specifications of the SCR ?
gate trigger voltage, gate trigger current, holding current, on-state voltage, peak gate power dissipation.

49.Can we interchange the source and drain terminals in a FET circuit? Can we do the same with the emitter and collector terminals of a BJT circuit?
We can interchange drain and source but we cannot change emitter and collector because emitter and collectors dimensions and doping concentration is different

50.What is a MOSFET? How is it different from a JFET? What are its typical applications?
Metal oxide semiconductor can be operated in both depletion and enhancement modes, but Junction field effect Transistor can be operated in depletion mode only.