INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad ELECTRICAL AND ELECTRONICS ENGINEERING

Size: px

Start display at page:

Download "INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad ELECTRICAL AND ELECTRONICS ENGINEERING"

Allan Mathews
5 years ago
Views:

INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad - 500 043 ELECTRICAL AND ELECTRONICS ENGINEERING QUESTION BANK Course Name : Electrical and Electronics Instrumentation Course

A Sathish kumar Course Faculty : OBJECTIVE: This course deals with measuring instruments mainly indicating instruments and the associated torques, instrument transformers, power factor meter,

1 INSTITUTE OF AERONAUTICAL ENGINEERING (Autonomous) Dundigal, Hyderabad ELECTRICAL AND ELECTRONICS ENGINEERING QUESTION BANK Course Name : Electrical and Electronics Instrumentation Course Code : Class : III-B.TECH II SEM Branch : Electrical and Electronics Engineering Year : Course Coordinator : Mr. A Sathish kumar Course Faculty : OBJECTIVE: This course deals with measuring instruments mainly indicating instruments and the associated torques, instrument transformers, power factor meter, frequency meter, synchro scopes, wattmeter, energy meter, potentiometer,resistance measuring methods, ac bridges,, extension range of indicating instruments. Oscilloscope, digital voltmeters, signal Analysers and transducers Q.NO QUESTION BANK ON SHORT ANSWER QUESTION UNIT -1 Introduction to Measuring Instruments QUESTION TO BE ANSWERED BLOOM S TAXANOMY COURSE OUTCOME 1 Give the main classifications of electrical instruments. Understand 1 2 Define the absolute instruments. Remember 1 3 Define the secondary instrument. Remember 1 4 Define the recording instruments. Remember 1 5 State the principle of magnetic effect. Remember 2 6 State the principle of electro-static effect. Remember 2 7 State the principle of electro-induction effect. Remember 2 8 What the different types are of associated with secondary instruments? Remember 4 9 What are the different arrangements to provide damping torque? Remember 1 10 What is the different control torques? Remember 1 11 What is the importance of spring control torque? Understand 1 12 What is the importance of gravity control torque? Understand 1 13 What is the importance of MC instruments? Understand 1 14 What is the importance of MI instruments? Understand 1 15 Give two differences between MC and MI instruments. Understand 1 UNIT II Potentiometers and Instrument Transformer 1 Define potentiometer. Remember 1 2 What are the different types of potentiometer? Remember 3 3 Draw the DC Crompton potentiometer. Remember 1 4 What is the importance standard cell in DC Crompton potentiometer? Understand 1 5 What is the importance of volt-ratio box in collaboration with DC Understand 1 Crompton potentiometer? 6 Draw the circuit diagram for calibration of ammeter using DC Crompton Remember 1 potentiometer. 7 Draw the circuit diagram for calibration of voltmeter using DC 1

2 Crompton potentiometer. Remember 8 Draw the circuit diagram for measurement of resistance using DC Remember 1 Crompton potentiometer. 9 Draw the circuit diagram for measurement of power using DC Crompton Remember 1 potentiometer. 10 Write the classification of AC potentiometer. Remember 3 11 Define polar type potentiometer. Remember 1 12 Define co-ordinate type potentiometer. Remember 1 13 Name the polar type potentiometer. Remember 1 14 Name the co-ordinate type potentiometer Remember 1 15 Draw the drysdale type potentiometer. Remember 1 16 Define instrument transformer. Remember 1 17 Give the importance of instrument transformer. Understand 1 18 What is the main two instrument transformer? Create 4 19 Define transformation ratio. Remember 1 20 Define turns ratio. Remember 1 21 Define nominal ratio. Remember 1 22 Define ratio correction factor. Remember 1 23 Define the ratio error. Remember 1 24 Define the phase angle error. Remember 1 25 Define the burden on secondary winding of instrument transformer. Remember 1 26 What is the limitation on operation of current transformer? Understand 4 27 Write the expression for ratio and phase angle error of potential Understand 2 Transformer. 28 Write the expression for ratio and phase angle error of current Understand 2 Transformer. 29 Suggest the different methods to reduce the ratio and phase angle Evaluate 3 Error of potential transformer. 30 Suggest the different methods to reduce the ratio and phase angle Evaluate 3 error of current transformer. UNIT III Measurement of Power and Energy 1 Define power. Remember 1 2 Define power in DC circuits. Remember 1 3 Define power in AC circuits. Remember 1 4 Write the expression for torque in electro-dynamometer type Understand 2 Wattmeter. 5 What are the main two coils in wattmeter? Remember 1 6 Define element in wattmeter/. Remember 1 7 Define the nature of resistance in pressure and current coil in Remember 1 Wattmeter. 8 How the pressure and control coil of wattmeter are connected in circuit/ Analyze 2 9 What is the principle of ferro-dynamic type wattmeter? Remember 2 10 How the low power factor is different from regular wattmeter? Analyze 2 11 Name the power measured by wattmeter. Remember 1 12 Suggest the type of connection of wattmeter into circuit under different Evaluate 3 conditions. 13 What is the importance of instrument transformer in collaboration with Analyse 2 wattmeter? 14 Give the expression for three phase power using instrument transformer. Understand 2 15 Define double element. Remember 1 16 Define energy. Remember 1 17 Define energy in DC circuits. Remember 1 18 Define energy in AC circuits. Remember 1 19 Write the expression for driving torque in single-phase induction type energy meter. Understand 2

3 20 What are the main two coils in energy meter? Remember 1 21 Define element in energy meter. Remember 1 22 Define the nature of resistance in pressure and current coil in energy Remember 1 meter. 23 How the pressure and control coil of energy meter are connected in 2 Analyze circuit? 24 What is the different type of registering system of energy meter? Remember 3 25 What is the importance of braking system in energy meter? Understand 2 26 Give the arrangement to provide braking torque. Understand 3 27 Suggest the type of connection of energy meter into circuit under Analyze 3 different conditions. 28 Define the static and running frictions in energy meter. Remember 1 29 Give the expression for braking torque in energy meter. Understand 2 30 Define double element. Remember 1 UNIT IV DC and AC Bridges 1 Define the resistance. Remember 1 2 What are different ranges of unknown resistance? Remember 3 3 Draw the wheat stone bridge for measurement of unknown resistance. Remember 1 4 Draw the volt-amp method circuit for measurement of unknown Remember 1 resistance. 5 Draw the amp-volt method circuit for measurement of unknown Remember 1 resistance. 6 Define the sensitivity of wheat stone bridge. Remember 1 7 Define the sensitivity galvanometer. Remember 1 8 What is the importance of carey foster bridge? Evaluate 2 9 What is the importance of kelvin s double bridge? Evaluate 2 10 Draw the Kelvin s double bridge. Remember 1 11 Compare wheat stone bridge and substitution method to measure Evaluate 2 unknown resistance. 12 Write the expression for sensitivity of wheat stone bridge. Understand 2 13 Write the expression for sensitivity of galvanometer. Understand 2 14 What is the importance of meggar circuit? Evaluate 2 15 Draw the circuit of substitution method. Remember 1 16 What are the main classifications of bridge? Remember 3 17 What is the condition for balance of bridge in DC bridges? Analyze 4 18 What is the condition for balance of bridge in AC bridges? Analyze 4 19 Write the condition for balance in terms of magnitude and phase for AC Analyze 4 bridges. 20 Draw the circuit diagram of wheat stone bridge. Remember 1 21 Draw the circuit diagram of Maxwell s inductance bridge. Remember 1 22 Draw the circuit diagram of Maxwell s inductance-capacitance bridge. Remember 1 23 Draw the circuit diagram of Anderson bridge. Remember 1 24 Draw the circuit diagram of Owen bridge. Remember 1 25 Draw the circuit diagram of Campbell bridge. Remember 1 26 Draw the circuit diagram of de-sauté s bridge. Remember 1 27 Draw the circuit diagram of Schering bridge. Remember 1 28 What are the different types of sources for AC bridges? Remember 3 29 What are the different types of detectors in AC bridges? Remember 3 30 Write the advantages and disadvantages of wheat stone bridge. Understand 2 UNIT-V Transducers and Oscilloscopes 1 What are the characteristics of transducers Understand 6 2 Give the factors to be considered for selecting a transducer Analyze 6 3 Define inverse transducer with example Understand 6 4 Classify the transducers Analyze 6

4 5 What are active and passive transducers? Give examples Understand 6 6 Give the operating principle of a resistive transducer and give examples Understand 6 7 What is piezoelectric effect? Understand 6 8 What is thermocouple? Understand 6 9 What is strain gauge? List its types. Understand 7 10 What is resistance thermometer Understand 6 11 What are the different types of sweeps used in a CRO? Analyze 7 12 The waveform shown in fig 12 is observed on a CRT screen. If the Evaluate 7 time/div switch is set 10μs and the volt/div switch is set to 200mV. Determine the frequency and peak-to-peak amplitude of the signal 13 If the vertical amplifier of an oscilloscope has a bandwidth of 15MHz, Evaluate 7 what is the fastest rise time that an input may have to be displayed without distortion? 14 A Lissajous pattern on an oscilloscope is stationary and has 5 horizontal Evaluate 7 tangencies and 2 vertical tangencies. The frequency of horizontal input is 1000Hz. Determine the frequency of vertical input. 15 Why is a delay line used in the vertical section of the oscilloscope? Understand 7 16 What is delayed sweep? When is it used? Understand 7 17 How is the electron beam focused to a fine spot on the face of the Understand 7 Cathode Ray Tube? 18 What is the relationship between the period of a waveform and its Understand 7 frequency? 19 Mention two methods of focusing an electron beam and mention their Understand 7 applications 20 Draw the block diagram of CRO Remember 7 21 Why is the frequency of excitation of primary winding kept very high as Understand 7 compared to the frequency of the signal being detected in LVDT? 22 How the direction of motion is determined using LVDT? Apply 8 23 What are the important machines used for monitoring of vibration? And Apply 8 why it is important to monitor vibration? 24 Discuss specifications of LVDT. Analyze 8 GROUP II LONG ASNWERS QUASTIONS Q.NO QUESTION TO BE ANSWERED BLOOM S TAXANOMY COURSE OUTCOME UNIT -1 MEASURING INSTRUMENTS 1 Draw and explain the PMMC instrument construction along with Remember 1 operation 2 Draw and explain the MI attraction instrument construction along with Remember 1 operation. 3 Derive the expression for value of shunt in the universal aryton Create 2 ammeter. 4 Derive the expression for value of multiplier in the universal aryton Create 2 voltmeter. 5 Draw and explain the idio static instrument construction along with Remember 1 operation. 6 Derive the torque equation of MI instruments. Create 2 7 What is loading effect? Explain with an example. Remember 3 8 Give the main classifications of electrical instruments along with the Understand 3 definitions with relevant examples. 9 Define magnetic effect, electro-static effect, heat effect, chemical effect, Remember 2 induction effect. 10 Derive the expression for value of multiplier in the multi-range voltmeter. Create 2

5 UNIT II Potentiometers and Instrument Transformer 1 Define potentiometer and explain the operation of DC Crompton Remember 1 potentiometer with neat sketch. 2 Draw and explain the operation of drysdale potentiometer. Remember 1,2 3 Draw and explain the operation of gal tinsley potentiometer. Remember 1,2 4 Give and explain the applications of DC Crompton potentiometer. Understand 2 5 Give and explain the applications of AC Crompton potentiometer. Understand 2 6 Distinguish between DC and AC potentiometer. Understand 3 7 Explain the process of standardization for DC Crompton potentiometer. Understand 2 8 Write different types of errors effecting the operation of DC Crompton Understand 4 potentiometer. 9 Explain the measurement of resistance and power using DC Crompton Understand 2 potentiometer. 10 Explain the measurement of voltage and current using DC Crompton Understand 2 potentiometer. 11 Give the construction of current transformer and explain its operation. Understand 1 12 Give the construction of potential transformer and explain its operation. Understand 1 UNIT III Measurement of Power and energy 1 Draw and explain the construction and operation of electrodynamometer wattmeter. Remember 1,2 2 Derive the expression for correction factor of wattmeter. Create 2 3 Draw and explain the construction and operation of Ferro dynamic Remember 1,2 wattmeter. 4 State the blonde s theorem and explain with an example. Remember 2 5 Derive the expression for power factor angle in two wattmeter method Create 2 for measurement of power. 6 Draw and explain the construction and operation of 2 element wattmeter. Remember 1,2 7 Draw and explain the construction and operation of var meter. Remember 1,2 8 Explain the procedure to test whether the wattmeter measures exact Understand 4 power or not. 9 Prove the power statement in three-phase circuits using two wattmeter Create 4 methods for unbalanced load. 10 Prove the power statement in three-phase circuits using two wattmeter Create 4 methods. 11 Draw and explain the operation induction type energy meter. Remember 1,2 12 What is phantom loading, explain with an example? Remember 2 13 Explain the test-a procedure for testing of energy-meter. Understand 4 14 Explain the test-b procedure for testing of energy-meter. Understand 4 15 Explain the test-c procedure for testing of energy-meter. Understand 4 16 Draw and explain the operation of maximum demand meter. Remember 1,2 17 Explain the different type adjustments made for smooth working of Understand 3 energy-meter. 18 Draw and explain the two element energy-meter Remember 1 19 Suggest the different methods to reduce the errors which effect the Understand 3 measurement of energy. 20 Compare the 1-phase and 3-phase induction type energy meter. Understand 2 UNIT IV DC and AC Bridges 1 Explain the method of volt-amp for measurement of resistance. Understand 2 2 Explain the method of substitution method for measurement of Understand 2 resistance 3 Draw and derive the expressions for unknown resistance using wheat Remember 1,2 stone bridge. 4 In the Wheatstone bridge p= 1000 ohms, q = 100 ohms, r = 2005 ohms

6 and s = 200 ohms. The battery has an emf of 5v. The galvanometer has a current sensitivity of 100mm/ micro amp and internal resistance of 100 ohms. Calculate the current through galvanometer and sensitivity of bridge 5 Draw and derive the expression for unknown resistance using Kelvin Remember 1,2 double bridge 6 Draw and explain the operation of megger circuit. Remember 1,2 7 In a carey foster bridge a resistance of ohms is compared with standard resistance of ohms, the slide wire has a resistance of ohms in 100 divisions. the ratio arms nominally each 10 ohms, are actually and 9.95 ohms. Slide wire is of 100 cm. find the position of balance. 8 Draw and explain loss of charge method. Remember 2 9 Compare the advantages and disadvantages of carey foster bridge, Evaluate 3 Kelvin s double bridge and wheat stone bridge. 10 Give the classifications of different ranges of resistance suggesting the Understand 3 best methods to measure. 11 Explain the basic construction of bridge. Understand 1,2 12 Draw and derive the known parameters from Maxwell s inductancecapacitance Remember 1,2 bridge. 13 Draw and derive the known parameters from HAY S bridge. Remember 1,2 14 Draw and derive the known parameters from ANDERSON S bridge. Remember 1,2 15 Draw and derive the known parameters from OWEN S bridge. Remember 1,2 16 Draw and derive the known parameters from DE-SAUTY S bridge. Remember 1,2 17 Draw and derive the known parameters from CAMPBELL S bridge. Remember 1,2 18 Draw and derive the known parameters from WEIN S bridge. Remember 1,2 19 Draw and derive the known parameters from SCHERING bridge. Remember 1,2 20 Draw and derive the known parameters from MAXWELL S Remember 1,2 INDUCTANCE bridge. UNIT-V Transducers and Oscilloscopes 1 Explain the construction and working of thermistors Understand 6 2 Explain the principle of resistive transducer Understand 6 3 Explain the principle of capacitive transducer Understand 6 4 Explain the principle of inductive transducer Understand 6 5 Explain the construction and working of resistance thermometer Analyze 6 6 Explain the construction and working of LVDT with a neat sketch Analyze 8 7 Explain the various types of temperature transducers Understand 6 8 Explain the construction and working of thermocouple Analyze 7 9 Explain the construction and working of synchro s Analyze 6 10 Explain the construction and working of piezo-electric transducers Analyze 6 11 Describe the different criteria for selection of transducers for a particular Apply 6 application. 12 Why are dummy gauges used? In what way do they affect the output of Understand 6 a strain gauge Bridge? 13 Describe the different methods used for compensation and cancellation Apply 6 the effects of temperature changes which affect the resistance elements used in strain gauge bridges 14 Describe the different parts of a CRT Analyze 7 15 Describe in detail the vertical amplifier used in CRO Analyze 7 16 Describe the phenomenon for synchronization of vertical input signal to Remember 7 its sweep generator 17 Describe the dual beam oscilloscope in detail Understand 7 18 Draw the block diagram of a general purpose CRO and explain the functions of the following controls. (i) Intensity (ii) focus (iii) horizontal and vertical positions (iv) synchronization Analyze 7

7 19 Explain horizontal deflection system Understand 7 20 A sinusoidal input is applied to the vertical input of an oscilloscope Evaluate 7 starting at t=0 Lissajous patterns are obtained when a sinusoidal input is applied to the horizontal terminals. Estimate the phase shift between Vertical and Horizontal inputs 21 What the different types of amplifiers used for CROs? Describe the basis Analyze 7 on which they are classified 22 Describe the principle of working and circuit diagram of digital Understand 7 oscilloscope 23 Describe how the following measurements can be made with the use of Apply 7 CRO (i) Frequency and (ii) phase 24 Explain the principle and working of a dual trace oscilloscope Understand 7 25 With the help of neat diagram, explain the functioning of delay lines Analyze 7 26 Explain with a neat block diagram of a horizontal and vertical deflection Analyze 7 system. 27 Explain the different types of graticules used in a CRO. Describe their Understand 7 advantages and disadvantages 28 What precautions must be taken when using a sampling oscilloscope? Understand 7 GROUP III ANALYTICAL QUESTIONS Q.NO QUESTION TO BE ANSWERED BLOOM S TAXANOMY COURSE OUTCOME UNIT -1 Introduction to measuring Instruments 1 A moving-coil instrument gives a full scale deflection. When the current is 40 ma and its resistance is 25. Calculate the value of the shunt to be connected in parallel with the meter to enable it to be used as an ammeter for measuring currents up to 50 A. 2 3 A moving-coil instrument gives full Scale. Deflection. For a current of 10 ma. Neglecting the resistance of the instrument, calculate the approximate value of series resistance needed to enable the instrument to measure up to (a) 20 V (b) 100 V(c) 250 V 4 A meter of resistance 50 ohms has a full scale deflection of 4 ma. Determine the value of shunt resistance required in order that full scale deflection should be (a) 15 ma (b) 20 A (c) 100 A 5 A moving-coil instrument having a resistance of 20, gives a f.s.d. when the current is5 ma. Calculate the value of the multiplier to be connected in series with the instrument so that it can be used as a voltmeter for measuring full. Scale. deflection up to 200 V 6 A moving-coil instrument has a full scale deflection of 20 ma and a resistance of 25. Calculate the values of resistance required to enable the instrument to be used (a) as a 0 10 A ammeter and (b) as a V voltmeter. State the mode of resistance connection in each case. 7 A meter has a resistance of 40 and registers a maximum deflection when a current of 15 ma flows. Calculate the value of resistance that converts the movement into(a) an ammeter with a maximum deflection of50 A (b) a voltmeter with a range V 8 An ammeter has a full. Scale deflection. Of 100 ma and a resistance of 50. The ammeter is used to measure the current in a load of resistance 500 when the supply voltage is 10 V. Calculate (a) the ammeter reading expected (neglecting its resistance)(b) the actual current in the circuit, (c) the power dissipated in the ammeter, and (d) the power dissipated in the load.

8 9 A voltage of 240 V is applied to a circuit consisting of an 800 resistor in series with a 1.6 k resistor. What is the voltage across the 1.6 k resistor? The potential differences across the 1.6k resistor is measured by a voltmeter of f.s.d.250 V and sensitivity 100 /V. Determine the voltage indicated 10 A 0 1 A ammeter having a resistance of 50is used to measure the current flowing in 1 k resistor when the supply voltage is 250 V. Calculate: (a) the approximate value of current (neglecting the ammeter resistance), (b) the actual current in the circuit, (c) the power dissipated in the ammeter, (d) the power dissipated in the 1 k resistor. 11 (a) A current of 15 A flows through a load having a resistance of 4. Determine the power dissipated in the load. (b) A wattmeter, whose current coil has a resistance of 0.02 is connected (as shown in Fig ) to measure the power in the load. Determine the wattmeter reading assuming the current in the load is still15 A. 12 A PMMC instrument has a coil dimensions 15mm*12mm. the flux density in the air gap is 1.8 mwb/m*m and the spring constant 0.14micro N-m/rad. Determine the number of turns required to produce an angular deflection of 90degrees when a current of 5mA is flowing through the coil. 13 A PMMC instrument has a coil dimensions 15mm*12mm. the flux density in the air gap is 1.8 mwb/m*m and the spring constant 0.14micro N-m/rad. Determine the number of turns required to produce an angular deflection of 90degrees when a current of 5mA is flowing through the coil. UNIT II Potentiometers and Instrument Transformer 1 The potentiometer is operated in conjunction with volt-ratio box; the voltage measured by potentiometer is 0.86 with full scale deflection of 1.6 v. Determine the reading of potentiometer for the range of 75v, 150v, 300v. 2 A simple slide wire is used for measurement of current in the circuit. the voltage across standard resistor of 0.1 ohm is at 75cm. Find the magnitude of current if the standard cell emf if 1.45v is balanced at 50 cm. 3 For the volt-ratio the input and output voltages are 100v and 2v. If the volt-ratio box is of (r1+r2) with 10m ohms. Determine the r1 and r2 values. 4 Calculate the inductance of coil from the following measurement of ac potentiometer. Voltage across 0.1 ohm standard resistor in series with coil is with 12.6 deg. Voltage drop across test coil through 100/1 volt-ratio box is with deg. 5 Calculate the impedance of the coil voltage across 1 ohm standard resistor in series with coil is 0.238v and v are in phase and quadrature voltage respectively Voltage drop across test coil through 10/1 volt-ratio box is and 0.232v are in phase and quadrature voltage respectively 6 A current transformer has a single turn primary and a 200 turn s secondary winding. The secondary winding supplies a current of 5a to a non-inductive burden of 1 ohm resistance. The requisite flux set up in the core by an mmf of 80a.the frequency is 50hz and the net crosssection of the core is 1000mm2.calculate the ratio and phase angle error. 7 The exciting current of a ring core current transformer, of ratio 1000/5a when operating at full primary. Current and with a secondary burden of non-inductive resistance of 1ohm is 1a, at a power factor of 0.4.calculate phase and ratio error.

9 8 A 1000/5a 50 hz current transformer has a secondary burden comprising of non-inductive impedance of 1.6 ohms.the primary winding has one turn.calculate the flux in the core and ratio error at full load. Neglect leakage reactance and assume the iron loss in core to be 105w at full load. the magnetizing mmf is A potential transformer ratio 1000/100v has the following constants: Primary resistance = 945 ohms, secondary resistance = 0.86 ohm, primary reactance = 66.2 ohms, total equivalent reactance = 110 ohms, no-load current at 0.4 power factor. calculate phase and ratio error UNIT III Measurement of Power and energy 1 the indication on a110v, 5a wattmeter used in conjunction with potential and current transformer of nominal ratio 100/1 and 20/1 respectively 350w.if the resistance and reactance of pressure coil is 362ohms and 100mh and the ratio and phase angle error of pt and ct are 0.8%, -45 deg and -0.2%, 90deg.what is the actual power measured, the load phase angle is 50deg and 500 hz. 2 In the two wattmeter method readings are 2000w and 500w respectively. Find the power factor of circuit. when the both the readings are positive If one of the wattmeter is obtained by interchanging terminals. 3 In the two wattmeter method readings are 7500w and-1500w respectively. Find the power factor of circuit. find the power factor of the circuit If the voltage is 400v, what is the capacitance must be added such that only one wattmeter reads total power. 4 A 3-ph motor load has power factor of 0.4. The reading of total input is 3-kw. Hence calculate reading of each wattmeter. 5 A wattmeter has a cc of 0.1ohm resistance resistance and pc of 6500 ohms resistance. Calculate the percentage in measurement. 12a, 250v with unity power factor. 12a, 250v with 0.4 power factor. 6 The cc of wattmeter connected in series with ammeter and inductive load.an voltmeter and pc are connected in parallel with 100hz supply. The readings are 4.5a, 240v and 23w.pc is of r = 2000 ohms and l = 10mh. What is the error in the measurement? 7 A wattmeter is rated at 10a 25v the cc is of ( j). The pc is purely resistive of 6250 ohms. Find the error due to two different types of connections. The load is 10a at a power factor of lagging. the voltage across load is 25v 8 The cc of wattmeter connected in series with ammeter and inductive load. A voltmeter and pc are connected in parallel with 100hz supply. the readings are 4.5a, 240v and 23w.pc is of r = 2000 ohms and l = 10mh 9 Explain the phantom loading for the wattmeter with cc of 0.1 ohm and pc of 8800 ohms and dc source of 6v and 5A. 10 The readings from the TEST A are RX = 10 RS = 10 KX= 1000 KS= 1200 find the error in the measurements. 11 The readings from the TEST B are nx = 10o within time of 10 sec rs = 10 kx= 150 within tome of 15 sec ks= 1200 Find the error in the Measurements. 12 The readings from the TEST C are RX = 5 T = 100 SEC KX= 100 V = 230 V I = 2A

10 Find the error in the measurements. 13 The readings from the TEST C are RX = 5 T = 90 SEC KX= 1000 V = 230 V I = 4A Find the error in the measurements. 14 The readings from the TEST C are RX = 5 T = 60 SEC KX= 1000 V = 230 V I = 6A Find the error in the measurements. 15 The readings from the TEST C are RX = 5 T = 300 SEC KX= 1000 V = 230 V I = 8A find the error in the measurements The readings from the TEST C are RX = 5 T = 20 SEC KX= 1000 V = 230 V I = 10A find the error in the measurements. UNIT IV DC and AC Bridges 1 In the volt-ampere method the voltmeter and ammeter readings are 180V and 2A for the second type of connections. Find the error in the measurement. 2 A resistance of approximately 3000 ohms needed to balance the bridge. It is obtain on the 5 dial resistance box of 1000, 100, 10, 1, 0.1 ohms. The measuring is to be guaranteed to 0.1%. 3 In the Wheatstone bridge p= 1000 ohms, q = 100 ohms, r = 2005 ohms and s = 200 ohms. The battery has an emf of 5v. the galvanometer has a current sensitivity of 100mm/ micro amp and internal resistance of 100 ohms. Calculate the current through galvanometer and sensitivity of bridge. 4 A wheat stone bridge has ratio arm of 1000/100 ohms. to measure unknown resistance of 25 ohms. Two galvanometers are used Galvanometer A - resistance of 50 ohms and sensitivity of 200 Galvanometer B - resistance of 600 ohms and sensitivity of The values of resistors in wheat stone bridge are P = R = 1k ohms, S == 5k ohms, G = 100 ohms, derive the bridge 6 In a carry foster bridge a resistance of ohms is compared with standard resistance of ohms, the slide wire has a resistance of ohms in 100 divisions. The ratio arms nominally each 10 ohms, are actually and 9.95 ohms. Slide wire is of 100 cm. find the position of balance. 7 In the given bridge ARM AB = L1 WITH r1 IN SERIES WITH R1 ARM AD = 47.8 Mh in series with 32.7 ohms ARM BC = 100 OHMS ARM CD = 100 OHMS IF BALANCE IS OBTAINED FOR R1 = 1.36 OHMS CALCULATE L1 AND r1. 8 In the given bridge ARM AB = L1 IN SERIES WITH R1 ARM AD = 2410 OHMS ARM BC = 750 OHMS ARM CD = 0.35 MICRO F WITH 64.5 OHMS FIND THE UNKNOWN PARAMETERS. 9 In the given bridge ARM AB = L1 WITH r1= 43.1 OHMS IN SERIES WITH R1 ARM AD = 250 OHMS ARM BC = 100 OHMS ARM CD = 200 OHMS ARM DE = OHMS

11 ARM CE = 1 MICRO F. THE UNKNOWN PARAMETERS. 10 In the given bridge ARM AB = 200 OHMS IN PARALLEL 1 MICRO F ARM AD = R2 IN SERIES WITH 2 MICRO F. ARM BC = 400 OHMS ARM CD = 1000 OHMS FIND THE UNKNOWN PARAMETERS. 11 In the given bridge ARM AB = C1 IN SERIES WITH R1 ARM AD = 5.2 OHMS IN SERIES WITH 0.5 MICRO F ARM BC = 2000 OHMS ARM CD = 2850 OHMS FIND THE UNKNOWN PARAMETERS. UNIT-V Transducers and Oscilloscopes 1 A CRT has anode voltage of 2000V and parallel deflecting plates 1.5 Evaluate 7 cm long and 5 mm apart. The screen is 50 cm from the center of the plates. Find i) beam speed(ii) deflection sensitivity (iii) deflection factor of the tube 2 Discuss the advantages and disadvantages of analog and digital type Understand 7 of oscilloscopes 3 Discuss the advantages and disadvantages of analog and digital type Understand 7 of oscilloscopes 4 Describe in detail the construction and working of an analog type Understand 7 storage oscilloscope. Explain the principle of secondary emission 5 Describe an overview of applications of a CRO Understand 7 6 With the help of neat diagram, explain the functioning of Lumped Analyze 7 parameter delay lines 7 With the help of block schematic explain the principle and working of Analyze 7 a sampling oscilloscope 8 What are the various circuit design considerations in the case of high Design 7 frequency CRO s 9 Explain in detail the different types of CRO probes Understand 7 10 A CRT has anode voltage of 2000V and parallel deflecting plates 2 evaluate 7 cm long and 5 mm apart. The screen is 30 cm from the center of the plates. Find the input voltage required to deflect the beam through 3 cm. The input voltage is applied to the deflecting plates through amplifiers having an overall gain of A lissajous pattern on the CRT screen is stationary and has 2 vertical evaluate 7 tangencies and 5 horizontal tangencies. If the frequency of horizontal input is 1000 Hz. Calculate the frequency of the vertical input. 12 An electro statically deflected cathode ray tube has plane parallel evaluate 7 deflecting plates which are 2.5cm long and 0.5cm apart, and the distance from their center to the screen is 20cm. The electron beam is accelerated by a potential difference of 2500v and is projected centrally between the plates. Calculate the deflecting voltage required to cause the beam to strike a deflecting voltage and find the corresponding deflection of the screen 13 Explain the following types of errors for a Transducer Understand 7 I. Scale errors ii.dynamic errors iii.noise and drift errors 14 Explain the classification of transducer in detail Understand 7 15 What are thermistors? Explain different forms of construction. Draw their resistivity versus temperature characteristics and show that they have a very high value of sensitivity as compared with that of metal Analyse 7

12 resistance thermometers 16 Describe the following for a transducer (i) Input characteristics (ii) Transfer characteristics(iii) Output characteristics 17 A resistive position transducer with a resistance of 10 k ohm and a shaft stoke of 10 cm is applied with a voltage of 5 V. When the wiper is 3 cm from the reference, what is the output voltage? 18 Calculate the thermoelectric sensitivity of a device using Bismuth and Tellurium. Estimate the maximum output voltage for a 100 degree temperature difference at room temperature using one junction. Sensitivity of Bi is -72 uv/ 0 C and of Tellurium is 500 uv/ 0 C 19 A strain gauge with a gauge factor of 4 has a resistance of 500Ω. It is to be used in a test in which the strain to be measured may be as low as 5x10-6. What will the change in resistance of gauge be? 20 A parallel plate capacitive transducer has a plates of 600 mm2 area which are separated by air by a distance of 0.2mm. The resistance of the transducer is 20x106Ω.Calculate the time constant of the transducer and fined the attenuation of the output at 1000Hz. The resistivity of air is 8.85x10-12 F/m. 21 A strain gauge having an unstrained resistance of 350Ω and a gauge factor of 2 is connected in series with a ballast resistance across a 10V supply. The ballast resistance is designed to give maximum sensitivity. The gauge is subjected to a dynamic strain of (10+20sin314t) micro strain.(a) Find the expression for the change in output voltage on account of strain.(b) If a capacitor is connected in one output lead and if the voltage is read by true rms 22 A strain bridge uses a strain gauge of 100Ω resistance. Under no strain condition all the bridge arms have equal resistance. The resistance R1 has to be changed to a value Ω to obtain balance when the gauge is subjected to strain. The gauge factor is 2, find the value of strain Understand 7 Evaluate 7 Evaluate 6 Evaluate 6 Evaluate 6 Evaluate 8 Evaluate 8 Prepared by: Mr. T Anil Kumar, Associate Professor HOD, ELECTRICAL AND ELECTRONICS ENGINEERING

Bhoj Reddy Engineering College for Women, Hyderabad Department of Electronics and Communication Engineering Electrical and Electronics Instrumentation

Bhoj Reddy Engineering College for Women, Hyderabad Department of Electronics and Communication Engineering Electrical and Electronics Instrumentation Academic Year: 2016-17 III B Tech II Semester Branch: