Sigma Engineering: Leading the Way in Customized Servo Stabilizers for the Egyptian Market

At Sigma Engineering, we specialize in designing and manufacturing high-quality servo stabilizers, with a particular focus on the Egyptian market. Our extensive experience and expertise in stabilizer technology ensure that we offer tailored solutions to meet our clients' specific needs. Whether for residential, commercial, or industrial applications, we provide the ideal stabilizer to maintain consistent voltage and protect sensitive electrical equipment.

At the beginning of 2020, COVID-19 disease began to spread around the world, millions of people worldwide were infected with COVID-19 disease, and major countries around the world have implemented foot prohibitions and work stoppage orders. Except for the medical supplies and life support products industries, most industries have been greatly impacted, and Linear Servo Voltage Stabilizers industries have also been greatly affected.

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This Report covers the manufacturers' data, including: shipment, price, revenue, gross profit, interview record, business distribution etc., these data help the consumer know about the competitors better. This report also covers all the regions and countries of the world, which shows a regional development status, including market size, volume and value, as well as price data. Besides, the report also covers segment data, including: type segment, industry segment, channel segment etc. cover different segment market size, both volume and value. Also cover different industries clients information, which is very important for the manufacturers. If you need more information, please contact BisReport

Section 1: Free----Definition

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Section (2 3): 1200 USD----Manufacturer Detail Innorade Servomax Limited Selvon Instruments Private Limited JP Power Solutions Gaurav Transformers Trans Power Soluons POWERCELL Powerline Systems Indus Power Corps Usha Servo Control Voltsafe Engineering Corporation Adhunik Electric Company Shakti Electrical Corporation

Section 4: 900 USD----Region Segmentation North America Country (United States, Canada) South America Asia Country (China, Japan, India, Korea) Europe Country (Germany, UK, France, Italy) Other Country (Middle East, Africa, GCC)

Also read: http://www.marketwatch.com/story/global-glass-engraving-machines-market-size-share-value-and-competitive-landscape-2024-2021-05-04

Section (5 6 7): 500 USD---- Product Type Segmentation Air Cooled Oil Cooled

Industry Segmentation Commercial Oil Plant Manufacturing Pharmaceutical Industry Rubber/Plastic Industry/Food Industry

Channel (Direct Sales, Distributor) Segmentation

Also read: http://www.marketwatch.com/story/global-large-area-image-sensors-marketsize-share-value-and-competitive-landscape-2020-2021-05-05

Section 8: 400 USD----Trend (2020-2025)

Section 9: 300 USD----Product Type Detail

Section 10: 700 USD----Downstream Consumer

Section 11: 200 USD----Cost Structure

Section 12: 500 USD----Conclusion

Table of Contents:

Section 1 Linear Servo Voltage Stabilizers Product Definition

Section 2 Global Linear Servo Voltage Stabilizers Market Manufacturer Share and Market Overview 2.1 Global Manufacturer Linear Servo Voltage Stabilizers Shipments 2.2 Global Manufacturer Linear Servo Voltage Stabilizers Business Revenue 2.3 Global Linear Servo Voltage Stabilizers Market Overview 2.4 COVID-19 Impact on Linear Servo Voltage Stabilizers Industry

Section 3 Manufacturer Linear Servo Voltage Stabilizers Business Introduction 3.1 Innorade Linear Servo Voltage Stabilizers Business Introduction 3.1.1 Innorade Linear Servo Voltage Stabilizers Shipments, Price, Revenue and Gross profit 2015-2020 3.1.2 Innorade Linear Servo Voltage Stabilizers Business Distribution by Region 3.1.3 Innorade Interview Record 3.1.4 Innorade Linear Servo Voltage Stabilizers Business Profile 3.1.5 Innorade Linear Servo Voltage Stabilizers Product Specification

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3.2 Servomax Limited Linear Servo Voltage Stabilizers Business Introduction 3.2.1 Servomax Limited Linear Servo Voltage Stabilizers Shipments, Price, Revenue and Gross profit 2015-2020 3.2.2 Servomax Limited Linear Servo Voltage Stabilizers Business Distribution by Region 3.2.3 Interview Record 3.2.4 Servomax Limited Linear Servo Voltage Stabilizers Business Overview 3.2.5 Servomax Limited Linear Servo Voltage Stabilizers Product Specification

3.3 Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Business Introduction 3.3.1 Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Shipments, Price, Revenue and Gross profit 2015-2020 3.3.2 Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Business Distribution by Region 3.3.3 Interview Record 3.3.4 Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Business Overview 3.3.5 Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Product Specification

3.4 JP Power Solutions Linear Servo Voltage Stabilizers Business Introduction 3.5 Gaurav Transformers Linear Servo Voltage Stabilizers Business Introduction 3.6 Trans Power Soluons Linear Servo Voltage Stabilizers Business Introduction ...

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Section 4 Global Linear Servo Voltage Stabilizers Market Segmentation (Region Level) 4.1 North America Country 4.1.1 United States Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.1.2 Canada Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.2 South America Country 4.2.1 South America Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.3 Asia Country 4.3.1 China Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.3.2 Japan Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.3.3 India Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.3.4 Korea Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.4 Europe Country 4.4.1 Germany Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.4.2 UK Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.4.3 France Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.4.4 Italy Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.4.5 Europe Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.5 Other Country and Region 4.5.1 Middle East Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.5.2 Africa Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.5.3 GCC Linear Servo Voltage Stabilizers Market Size and Price Analysis 2015-2020 4.6 Global Linear Servo Voltage Stabilizers Market Segmentation (Region Level) Analysis 2015-2020 4.7 Global Linear Servo Voltage Stabilizers Market Segmentation (Region Level) Analysis

Section 5 Global Linear Servo Voltage Stabilizers Market Segmentation (Product Type Level) 5.1 Global Linear Servo Voltage Stabilizers Market Segmentation (Product Type Level) Market Size 2015-2020 5.2 Different Linear Servo Voltage Stabilizers Product Type Price 2015-2020 5.3 Global Linear Servo Voltage Stabilizers Market Segmentation (Product Type Level) Analysis

Section 6 Global Linear Servo Voltage Stabilizers Market Segmentation (Industry Level) 6.1 Global Linear Servo Voltage Stabilizers Market Segmentation (Industry Level) Market Size 2015-2020 6.2 Different Industry Price 2015-2020 6.3 Global Linear Servo Voltage Stabilizers Market Segmentation (Industry Level) Analysis

Section 7 Global Linear Servo Voltage Stabilizers Market Segmentation (Channel Level) 7.1 Global Linear Servo Voltage Stabilizers Market Segmentation (Channel Level) Sales Volume and Share 2015-2020 7.2 Global Linear Servo Voltage Stabilizers Market Segmentation (Channel Level) Analysis

Section 8 Linear Servo Voltage Stabilizers Market Forecast 2020-2025 8.1 Linear Servo Voltage Stabilizers Segmentation Market Forecast (Region Level) 8.2 Linear Servo Voltage Stabilizers Segmentation Market Forecast (Product Type Level) 8.3 Linear Servo Voltage Stabilizers Segmentation Market Forecast (Industry Level) 8.4 Linear Servo Voltage Stabilizers Segmentation Market Forecast (Channel Level)

Section 9 Linear Servo Voltage Stabilizers Segmentation Product Type 9.1 Air Cooled Product Introduction 9.2 Oil Cooled Product Introduction

Section 10 Linear Servo Voltage Stabilizers Segmentation Industry 10.1 Commercial Clients 10.2 Oil Plant Clients 10.3 Manufacturing Clients 10.4 Pharmaceutical Industry Clients 10.5 Rubber/Plastic Industry/Food Industry Clients

Section 11 Linear Servo Voltage Stabilizers Cost of Production Analysis 11.1 Raw Material Cost Analysis 11.2 Technology Cost Analysis 11.3 Labor Cost Analysis 11.4 Cost Overview

Section 12 Conclusion

Chart and Figure Figure Linear Servo Voltage Stabilizers Product Picture from Innorade Chart 2015-2020 Global Manufacturer Linear Servo Voltage Stabilizers Shipments (Units) Chart 2015-2020 Global Manufacturer Linear Servo Voltage Stabilizers Shipments Share Chart 2015-2020 Global Manufacturer Linear Servo Voltage Stabilizers Business Revenue (Million USD) Chart 2015-2020 Global Manufacturer Linear Servo Voltage Stabilizers Business Revenue Share Chart Innorade Linear Servo Voltage Stabilizers Shipments, Price, Revenue and Gross profit 2015-2020 Chart Innorade Linear Servo Voltage Stabilizers Business Distribution Chart Innorade Interview Record (Partly) Figure Innorade Linear Servo Voltage Stabilizers Product Picture Chart Innorade Linear Servo Voltage Stabilizers Business Profile Table Innorade Linear Servo Voltage Stabilizers Product Specification Chart Servomax Limited Linear Servo Voltage Stabilizers Shipments, Price, Revenue and Gross profit 2015-2020 Chart Servomax Limited Linear Servo Voltage Stabilizers Business Distribution Chart Servomax Limited Interview Record (Partly) Figure Servomax Limited Linear Servo Voltage Stabilizers Product Picture Chart Servomax Limited Linear Servo Voltage Stabilizers Business Overview Table Servomax Limited Linear Servo Voltage Stabilizers Product Specification Chart Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Shipments, Price, Revenue and Gross profit 2015-2020 Chart Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Business Distribution Chart Selvon Instruments Private Limited Interview Record (Partly) Figure Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Product Picture Chart Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Business Overview Table Selvon Instruments Private Limited Linear Servo Voltage Stabilizers Product Specification 3.4 JP Power Solutions Linear Servo Voltage Stabilizers Business Introduction ... Chart United States Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart United States Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart Canada Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart Canada Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart South America Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart South America Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart China Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart China Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart Japan Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart Japan Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart India Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart India Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart Korea Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart Korea Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart Germany Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart Germany Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart UK Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart UK Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart France Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart France Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart Italy Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart Italy Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart Europe Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart Europe Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart Middle East Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart Middle East Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart Africa Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart Africa Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart GCC Linear Servo Voltage Stabilizers Sales Volume (Units) and Market Size (Million $) 2015-2020 Chart GCC Linear Servo Voltage Stabilizers Sales Price ($/Unit) 2015-2020 Chart Global Linear Servo Voltage Stabilizers Market Segmentation (Region Level) Sales Volume 2015-2020 Chart Global Linear Servo Voltage Stabilizers Market Segmentation (Region Level) Market size 2015-2020 Chart Linear Servo Voltage Stabilizers Market Segmentation (Product Type Level) Volume (Units) 2015-2020 Chart Linear Servo Voltage Stabilizers Market Segmentation (Product Type Level) Market Size (Million $) 2015-2020 Chart Different Linear Servo Voltage Stabilizers Product Type Price ($/Unit) 2015-2020 Chart Linear Servo Voltage Stabilizers Market Segmentation (Industry Level) Market Size (Volume) 2015-2020 Chart Linear Servo Voltage Stabilizers Market Segmentation (Industry Level) Market Size (Share) 2015-2020 Chart Linear Servo Voltage Stabilizers Market Segmentation (Industry Level) Market Size (Value) 2015-2020 Chart Global Linear Servo Voltage Stabilizers Market Segmentation (Channel Level) Sales Volume (Units) 2015-2020 Chart Global Linear Servo Voltage Stabilizers Market Segmentation (Channel Level) Share 2015-2020 Chart Linear Servo Voltage Stabilizers Segmentation Market Forecast (Region Level) 2020-2025 Chart Linear Servo Voltage Stabilizers Segmentation Market Forecast (Product Type Level) 2020-2025 Chart Linear Servo Voltage Stabilizers Segmentation Market Forecast (Industry Level) 2020-2025 Chart Linear Servo Voltage Stabilizers Segmentation Market Forecast (Channel Level) 2020-2025 Chart Air Cooled Product Figure Chart Air Cooled Product Advantage and Disadvantage Comparison Chart Oil Cooled Product Figure Chart Oil Cooled Product Advantage and Disadvantage Comparison Chart Commercial Clients Chart Oil Plant Clients Chart Manufacturing Clients Chart Pharmaceutical Industry Clients Chart Rubber/Plastic Industry/Food Industry Clients

....... Continued

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300+ TOP CONTROL SYSTEMS Objective Questions and Answers pdf

CONTROL SYSTEMS Objective Questions :-

1. In an open loop control system (a) Output is independent of control input (b) Output is dependent on control input (c) Only system parameters have effect on the control output (d) None of the above Ans: a 2. For open control system which of the following statements is incorrect ? (a) Less expensive (b) Recalibration is not required for maintaining the required quality of the output (c) Construction is simple and maintenance easy (d) Errors are caused by disturbances Ans: b 3. A control system in which the control action is somehow dependent on the output is known as (a) Closed loop system (b) Semiclosed loop system (c) Open system (d) None of the above Ans: a 4. In closed loop control system, with positive value of feedback gain the overall gain of the system will (a) decrease (b) increase (c) be unaffected (d) any of the above Ans: a 5. Which of the following is an open loop control system ? (a) Field controlled D.C. motor (b) Ward leonard control (c) Metadyne (d) Stroboscope Ans: a 6. Which of the following statements is not necessarily correct for open control system ? (a) Input command is the sole factor responsible for providing the control action (b) Presence of non-linearities causes malfunctioning (c) Less expensive (d) Generally free from problems of non-linearities Ans: b 7. In open loop system (a) the control action depends on the size of the system (b) the control action depends on system variables (c) the control action depends on the input signal (d) the control action is independent of the output Ans: d 8. has tendency to oscillate. (a) Open loop system (b) Closed loop system (c) Both (a) and (b) (d) Neither (a) nor (b) Ans: b 9. A good control system has all the following features except (a) good stability (b) slow response (c) good accuracy (d) sufficient power handling capacity Ans: b 10. A car is raining at a constant speed of 50 km/h, which of the following is the feedback element for the driver ? (a) Clutch (b) Eyes (c) Needle of the speedometer (d) Steering wheel (e) None of the above Ans: c

CONTROL SYSTEMS Objective Questions 11. The initial response when tne output is not equal to input is called (a) Transient response (b) Error response (c) Dynamic response (d) Either of the above Ans: a 12. A control system working under unknown random actions is called (a) computer control system (b) digital data system (c) stochastic control system (d) adaptive control system Ans: c 13. An automatic toaster is a ______ loop control system. (a) open (b) closed (c) partially closed (d) any of the above Ans: a 14. Any externally introduced signal affecting the controlled output is called a (a) feedback (b) stimulus (c) signal (d) gain control Ans: b 15. A closed loop system is distinguished from open loop system by which of the following ? (a) Servomechanism (b) Feedback (c) Output pattern (d) Input pattern Ans: b 16 is a part of the human temperature control system. (a) Digestive system (b) Perspiration system (c) Ear (d) Leg movement Ans: b 17. By which of the following the control action is determined when a man walks along a path ? (a) Brain (b) Hands (c) Legs (d) Eyes Ans: d 18. is a closed loop system. (a) Auto-pilot for an aircraft (6) Direct current generator (c) Car starter (d) Electric switch Ans: a 19. Which of the following devices are commonly used as error detectors in instruments ? (a) Vernistats (b) Microsyns (c) Resolvers (d) Any of the above Ans: d 20. Which of the following should be done to make an unstable system stable ? (a) The gain of the system should be decreased (b) The gain of the system should be increased (c) The number of poles to the loop transfer function should be increased (d) The number of zeros to the loop transfer function should be increased Ans: b 21. increases the steady state accuracy. (a) Integrator (b) Differentiator (c) Phase lead compensator (d) Phase lag compensator Ans: a 22. A.C. servomotor resembles (a) two phase induction motor (b) Three phase induction motor (c) direct current series motor (d) universal motor Ans: a 23. As a result of introduction of negative feedback which of the following will not decrease ? (a) Band width (b) Overall gain (c) Distortion (d) Instability Ans: a 24. Regenerative feedback implies feedback with (a) oscillations (b) step input (c) negative sign (d) positive sign Ans: d 25. The output of a feedback control system must be a function of (a) reference and output (b) reference and input (e) input and feedback signal (d) output and feedback signal Ans: a 26. is an open loop control system. (a) Ward Leonard control (b) Field controlled D.C. motor (c) Stroboscope (d) Metadyne Ans: b 27. A control system with excessive noise, is likely to suffer from (a) saturation in amplifying stages (b) loss of gain (c) vibrations (d) oscillations Ans: a 28. Zero initial condition for a system means (a) input reference signal is zero (b) zero stored energy (c) ne initial movement of moving parts (d) system is at rest and no energy is stored in any of its components Ans: d 29. Transfer function of a system is used to calculate which of the following ? (a) The order of the system (b) The time constant (c) The output for any given input (d) The steady state gain Ans: c 30. The band width, in a feedback amplifier. (a) remains unaffected (b) decreases by the same amount as the gain increase (c) increases by the sane saaaajajt as the gain decrease (d) decreases by the same amount as the gain decrease Ans: c 31. On which of the following factors does the sensitivity of a closed loop system to gain changes and load disturbances depend ? (a) Frequency (b) Loop gain (c) Forward gain (d) All of the above Ans: d 32. The transient response, with feedback system, (a) rises slowly (b) rises quickly (c) decays slowly (d) decays quickly Ans: d 33. The second derivative input signals modify which of the following ? (a) The time constant of the system (b) Damping of the system (c) The gain of the system (d) The time constant and suppress the oscillations (e) None of the above Ans: d 34. Which of the following statements is correct for any closed loop system ? (a) All the co-efficients can have zero value (6) All the co-efficients are always non-zero (c) Only one of the static error co-efficients has a finite non-zero value (d) None of the above Ans: c 35. Which of the following statements is correct for a system with gain margin close to unity or a phase margin close to zero ? (a) The system is relatively stable (b) The system is highly stable (c) The system is highly oscillatory (d) None of the above Ans: c 36. Due to which of the following reasons excessive bond width in control systems should be avoided ? (a) It leads to slow speed of response (b) It leads to low relative stability (c) Noise is proportional to band width (d) None of the above Ans: c 37. In a stable control system backlash can cause which of the following ? (a) Underdamping (b) Overdamping (c) Poor stability at reduced values of open loop gain (d) Low-level oscillations Ans: d 38. In an automatic control system which of the following elements is not used ? (a) Error detector (b) Final control element (c) Sensor (d) Oscillator Ans: d 39. In a control system the output of the controller is given to (a) final control element (b) amplifier (c) comparator (d) sensor (e) none of the above Ans: a 40. A controller, essentially, is a (a) sensor (b) clipper (c) comparator (d) amplifier Ans: c 41. Which of the following is the input to a controller ? (a) Servo signal (b) Desired variable value (c) Error signal (d) Sensed signal Ans: 42. The on-off controller is a _____ system. (a) digital (b) linear (c) non-linear (d) discontinuous Ans: 43. The capacitance, in force-current analogy, is analogous to (a) momentum (b) velocity (c) displacement (d) mass Ans: d 44. The temperature, under thermal and electrical system analogy, is considered analogous to (a) voltage (b) current (c) capacitance (d) charge (e) none of the above Ans: a 45. In electrical-pneumatic system analogy the current is considered analogous to (a) velocity (b) pressure (c) air flow (d) air flow rate Ans: d 46. In liquid level and electrical system analogy, voltage is considered analogous to (a) head (b) liquid flow (c) liquid flow rate (d) none of the above Ans: a 47. The viscous friction co-efficient, in force-voltage analogy, is analogous to (a) charge (b) resistance (c) reciprocal of inductance (d) reciprocal of conductance (e) none of the above Ans: b 48. In force-voltage analogy, velocity is analogous to (a) current (b) charge (c) inductance (d) capacitance Ans: a 49. In thermal-electrical analogy charge is considered analogous to (a) heat flow (b) reciprocal of heat flow (c) reciprocal of temperature (d) temperature (e) none of the above Ans: d 50. Mass, in force-voltage analogy, is analogous to (a) charge (b) current (c) inductance (d) resistance Ans: c 51. The transient response of a system is mainly due to (a) inertia forces (b) internal forces (c) stored energy (d) friction Ans: c 52. signal will become zero when the feedback signal and reference signs are equal. (a) Input (b) Actuating (c) Feedback (d) Reference Ans: b 53. A signal other than the reference input that tends to affect the value of controlled variable is known as (a) disturbance (b) command (c) control element (d) reference input Ans: a 54. The transfer function is applicable to which of the following ? (a) Linear and time-in variant systems (b) Linear and time-variant systems (c) Linear systems (d) Non-linear systems (e) None of the above Ans: a 55. From which of the following transfer function can be obtained ? (a) Signal flow graph (b) Analogous table (c) Output-input ratio (d) Standard block system (e) None of the above Ans: a 56. is the reference input minus the primary feedback. (a) Manipulated variable (b) Zero sequence (c) Actuating signal (d) Primary feedback Ans: c 57. The term backlash is associated with (a) servomotors (b) induction relays (c) gear trains (d) any of the above Ans: 58. With feedback _____ increases. (a) system stability (b) sensitivity (c) gain (d) effects of disturbing signals Ans: a 59. By which of the following the system response can be tested better ? (a) Ramp input signal (b) Sinusoidal input signal (c) Unit impulse input signal (d) Exponentially decaying signal Ans: c 60. In a system zero initial condition means that (a) The system is at rest and no energy is stored in any of its components (b) The system is working with zero stored energy (c) The system is working with zero reference signal Ans: a 61. In a system low friction co-efficient facilitates (a) reduced velocity lag error (b) increased velocity lag error (c) increased speed of response (d) reduced time constant of the system Ans: a 62. Hydraulic torque transmission system is analog of (a) amplidyneset (b) resistance-capacitance parallel circuit (c) motor-generator set (d) any of the above Ans: 63. Spring constant in force-voltage analogy is analogous to (a) capacitance (b) reciprocal of capacitance (c) current (d) resistance Ans: b 64. The frequency and time domain are related through which of the following? (a) Laplace Transform and Fourier Integral (b) Laplace Transform (c) Fourier Integral (d) Either (b) or (c) Ans: a 65. An increase in gain, in most systems, leads to (a) smaller damping ratio (b) larger damping ratio (c) constant damping ratio (d) none of the above Ans: a 66. Static error coefficients are used as a measure of the effectiveness of closed loop systems for specified ________ input signal. (a) acceleration (b) velocity (c) position (d) all of the above Ans: d 67. A conditionally stable system exhibits poor stability at (a) low frequencies (b) reduced values of open loop gain (c) increased values of open loop gain (d) none of the above Ans: b 68. The type 0 system has ______ at the origin. (a) no pole (b) net pole (c) simple pole (d) two poles (e) none of the above Ans: a 69. The type 1 system has ______ at the origin. (a) no pole (b) net pole (c) simple pole (d) two poles Ans: c 70. The type 2 system has ______ at the origin. (a) no net pole (b) net pole (c) simple pole (d) two poles Ans: d 71. The position and velocity errors of a type-2 system are (a) constant, constant (b) constant, infinity (c) zero, constant (d) zero, zero Ans: c 72. Velocity error constant of a system is measured when the input to the system is unit _______ function. (a) parabolic (b) ramp (c) impulse (d) step Ans: b 73. In case of type-1 system steady state acceleration is (a) unity (b) infinity (c) zero (d) 10 Ans: b 74. If a step function is applied to the input of a system and the output remains below a certain level for all the time, the system is (a) not necessarily stable (b) stable (c) unstable (d) always unstable (e) any of the above Ans: a 75. Which of the following is the best method for determining the stability and transient response ? (a) Root locus (b) Bode plot (c) Nyquist plot (d) None of the above Ans: a 76. Phase margin of a system is used to specify which of the following ? (a) Frequency response (b) Absolute stability (c) Relative stability (d) Time response Ans: c 77. Addition of zeros in transfer function causes which of the following ? (a) Lead-compensation (b) Lag-compensation (c) Lead-lag compensation (d) None of the above Ans: b 78. technique is not applicable to nonlinear system ? (a) Nyquist Criterion (b) Quasi linearization (c) Functional analysis (d) Phase-plane representation Ans: a 79. In order to increase the damping of a badly underdamped system which of following compensators may be used ? (a) Phase-lead (b) Phase-lag (c) Both (a) and (b) (d) Either (a) and (b) (e) None of the above Ans: a 80. The phase lag produced by transportation relays (a) is independent of frequency (b) is inverseh'proportional to frequency (c) increases linearly with frequency (d) decreases linearly with frequency Ans: c 81. In a stable control system saturation can cause which of the following ? (a) Low-level oscillations (b) High-level oscillations (c) Conditional stability (d) Overdamping Ans: 82. Which of the following can be measured by the use of a tachogenerator ? (a) Acceleration (b) Speed (c) Speed and acceleration (d) Displacement (e) None of the above Ans: b 83 is not a final control element. (a) Control valve (b) Potentiometer (c) Electropneumatic converter (d) Servomotor Ans: b 84. Which of the following is the definition of proportional band of a controller ? (a) The range of air output as measured variable varies from maximum to minimum (b) The range of measured variables from set value (c) The range of measured variables through which the air output changes from maximum to minimum (d) Any of the above (e) None of the above Ans: c 85. In pneumatic control systems the control valve used as final control element converts (a) pressure signal to electric signal (b) pressure signal to position change (c) electric signal to pressure signal (d) position change to pressure signal (e) none of the above Ans: b 86. Pressure error can be measured by which of the following ? (a) Differential bellows and straingauge (b) Selsyn (c) Strain gauge (d) Strain gauge and potentiometer Ans: a 87. Which of the following devices is used for conversion of co-ordinates ? (a) Microsyn (b) Selsyn (c) Synchro-resolver (d) Synchro-transformer Ans: c 88. The effect of error damping is to (a) provide larger settling lime (b) delay the response (c) reduce steady state error (d) any of the above (e) none of the above Ans: c 89. technique gives quick transient and stability response (a) Root locus (b) Bode (c) Nyquist (d) Nichols Ans: a 90. A phase lag lead network introduces in the output (a) lag at all frequencies (b) lag at high frequencies and lead at low frequencies (c) lag at low frequencies and lead at high frequencies (d) none of the above Ans: c 91. Which of the following is the non-linearity caused by servomotor ? (a) Static friction (b) Backlash (c) Saturation (d) None of the above Ans: c 92. can be extended to systems which are time-varying ? (a) Bode-Nyquist stability methods (b) Transfer functions (c) Root locus design (d) State model representatives Ans: d 93. When the initial conditions of a system are specified to be zero it implies that the system is (a) at rest without any energy stored in it (b) working normally with reference input (c) working normally with zero reference input (d) at rest but stores energy Ans: d 94. Which of the following is an electromagnetically device ? (a) Induction relay (b) Thermocouple (c) LVDT (d) Any of the above (e) None of the above Ans: c 95. A differentiator is usually not a part of a control system because it (a) reduces damping (b) reduces the gain margin (c) increases input noise (d) increases error Ans: c 96. If the gain of the critical damped system is increased it will behave as (a) oscillatory (b) critically damped (c) overdamped (d) underdamped (e) none of the above Ans: d 97. In a control system integral error compensation _______ steady state error (a) increases (b) minimizes (c) does not have any effect on (d) any of the above Ans: b 98. With feed back _____ reduces. (a) system stability (6) system gain (c) system stability and gain (d) none of the above Ans: b 99. An amplidyne can give which of the following characteristics ? (a) Constant current (b) Constant voltage (c) Constant current as well as constant voltage (d) Constant current, constant voltage and constant power (e) None of the above Ans: d 100. Which of the following can be measured by LVDT? (a) Displacement (b) Velocity (c) Acceleration (d) Any of the above Ans: d 101 directly converts temperature into voltage. (a) Thermocouple (b) Potentiometer (c) Gear train (d) LVDT (e) None of the above Ans: a 102. The transfer function technique is considered as inadequate under which of the following conditions ? (a) Systems having complexities and non-linearities (b) Systems having stability problems (c) Systems having multiple input disturbances (d) All of the above Ans: d 103. Which of the following is the output of a thermocouple ? (a) Alternating current (b) Direct current (c) A.C. voltage (d) D.C. voltage (e) None of the above Ans: d 104. A.C. servomotor is basically a (a) universal motor (b) single phase induction motor (c) two phase induction motor (d) three phase induction motor Ans: c 105. The first order control system, which is well designed, has a (a) small bandwidth (b) negative time constant (c) large negative transfer function pole (d) none of the above Ans: c 106. Which of the following is exhibited by Root locus diagrams ? (a) The poles of the transfer function for a set of parameter values (b) The bandwidth of the system (c) The response of a system to a step input (d) The frequency response of a system (e) None of the above Ans: a CONTROL SYSTEMS Multiple Choice Questions and Answers Read the full article

Design and Construction of Control System for Automatic Voltage Stabilizer

by Hnin Hnin Aye "Design and Construction of Control System for Automatic Voltage Stabilizer" 

Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-1 , December 2018, 

URL: http://www.ijtsrd.com/papers/ijtsrd19004.pdf

Direct Link: http://www.ijtsrd.com/engineering/electrical-engineering/19004/design-and-construction-of-control-system-for-automatic-voltage-stabilizer/hnin-hnin-aye

open access journal of engineering, ugc approved journals for engineering, call for paper engineering

In Myanmar, voltage fluctuation always occurs in electrical supply system. Due to voltage fluctuation, life of electrical equipment consumed electricity is shorted really. To solve this problem, automatic voltage stabilizer is needed for domestic and industries. Both single phase and three phases are available. In this paper intend to known that automatic voltage stabilizer plays efficient role in all type of load i.e. resistive, inductive and capacitive loads. This paper present control circuit for automatic voltage stabilizer provides voltage comparator, relays and servo-controlled motor that compare instantaneous input and output voltage. Automatic voltage stabilizer consists of two unit measuring unit and regulating unit. In this stabilizer, toroidal type variable autotransformer is used for regulating unit and electronic control circuit is used for sensing unit. Electromechanical or servo control system is used for measuring unit to sense the supply voltage. This electronic control circuit will operate within the fluctuation range from 120V to 250V.The rating of this automatic voltage stabilizer is 7kVA single phase and its frequency range is 50Hz. The output sensitivity is ±1 . If input voltage is lower than 120V or higher than 250V, the system will be automatic shutdown.