2017-2022 Global GTO Thyristor Module Market Analysis : ABB Ltd. (Switzerland), Danfoss A/S (Denmark), Fairchild Semiconductor International (U.S., Fuji Electric (Japan)

2017-2022 Global GTO Thyristor Module Market Analysis : ABB Ltd. (Switzerland), Danfoss A/S (Denmark), Fairchild Semiconductor International (U.S., Fuji Electric (Japan)

The GTO Thyristor Module Market 2017 Research Report investigates a thorough and complete study on GTO Thyristor Module industry volume, market Share, market Trends, GTO Thyristor Module Growth aspects, wide range of applications, Utilization ratio, Supply and demand analysis, manufacturing capacity and GTO Thyristor Module industry Price during Forecast period from 2017 to 2022

The research…

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Insights Into The Power Electronics Market Size 2022-2028 Forecast Period

The analysis covers market drivers, constraints, challenges, strategic expansions, market size and share, development prospects, and threats. A complete definition of the industry and its important segments, as well as an analysis of the business vertical, are included in the most recent study on the Power Electronics Market. The industry is growing, according to the report, as a result of technical advancements.

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The report also includes segmentation data, such as type, industry, and channel sectors, as well as market size data in terms of both volume and value, for each segment. Manufacturers must grasp the lucrative segments of the Power Electronics market where these major firms are investing their efforts, therefore information on notable industry participants is also provided.

MARKET SEGMENTATION:

BY WAFER TYPE

Gallium Nitride

Silicon Carbide

Silicon

Others

BY COMPONENT

Thyristor

Gate Turn-Off Transistor (GTO)

Silicon Controlled rectifier (SCR)

Static Switches

MCT (MOS-Controlled Thyristor)

AC/DC Converter

MOSFET

Others

BY WAFER SIZE

450mm

200mm

300mm

150mm

BY APPLICATION

Defense and Aerospace

Utilities and Energy

Transportation

Consumer Electronics

Telecommunications and IT

Automotive

Industrial

Others

BY DEVICE

Discrete

IC

Module

COVID-19 Impact Analysis

The report also considers market growth influences, such as the current COVID-19 outbreak. The COVID-19 pandemic, according to the study, had a significant impact on the Power Electronics industry's supply chain, demand, trends, and general dynamics. It also forecasts market expansion following COVID-19.

Key Influencers for Power Electronics Market

The study goes into great detail regarding the market's characteristics and factors that contribute to its success. The industry's growth is fueled by the ongoing efforts of significant corporations to produce new goods and technologies. In addition, the industry is seeing a flurry of strategic collaborations and efforts that are expanding the market's scope.

Regional Dynamics

To provide a thorough view of the market, the regional research sections also provide a country-by-country study. The regional split of the market is indicated by the Power Electronics market analysis in places where the market has already established itself as a leader.  It also looks at import/export studies, supply and demand dynamics, regional trends and demands, and the presence of major actors in each region's production and consumption ratios.

Competitive Scenario

The research includes a complete evaluation to give the reader a better understanding of the market's competitive environment. The study also includes information on each player's revenue, gross profit margin, financial status, market position, product portfolio, and other pertinent parameters. The report also includes a complete SWOT analysis and a Porter's Five Forces analysis. This section focuses on the major market players' initiatives and advancements in order to establish a strong presence.

The Power Electronics market analysis also includes information on mergers and acquisitions, joint ventures, collaborations, partnerships, and agreements to provide you a better picture of the industry. This section is ideal source of input for market players to revisit their strategic positions.

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Table Of Contents

 1. Introduction

1.1 Market Definition

1.2 Scope

1.3 Research Assumptions

2. Research Methodology

3. Market Dynamics

3.1 Drivers

3.2 Restraints

3.3 Opportunities

3.4 Challenges

4. Impact Analysis

4.1 COVID 19 Impact Analysis

4.2 Impact Of Ukraine-Russia War

5. Value Chain Analysis

6. Porter’s 5 Forces Model

7.  PEST Analysis

8. Global Power Electronics Market Segmentation, By Wafer Type

8.1 Gallium Nitride

8.2 Silicon Carbide

8.3 Silicon

8.4 Others

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Recent Trends in Space Power Electronics Market By 2021 To 2026

The report on the space power electronics market provides a detailed trend analysis from 2018 to 2026. It discusses industry and technology trends currently prevailing in the market, along with drivers, restraints, challenges, and opportunities that influence the growth of the market.

The global Space power electronics market is projected to grow from USD 205 million in 2021 to USD 435 million by 2026, at a CAGR of 16.2%. Space power electronics is the application of electronics on satellites, spacecraft, launch vehicles, space stations and rovers to control and convert electric power from one form to other. It deals with the processing of high voltages and currents to deliver power that supports a variety of needs. According to the National Aeronautics and Space Administration, a power electronic system can comprise a modular power electronic subsystem (PESS) connected to a source and load at its input and output power ports, respectively. Semiconductor devices such as metal-oxide semiconductor field effect transistors (MOSFET), insulated gate bipolar transistors (IGBT), mos-controlled thyristor (MCT), and gate-turn-off thyristors (GTO) represent the cornerstone of modem power electronic converters.

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Based on device type, the power IC segment is expected to lead the space power electronics market from 2021 to 2026. Power ICs are integrated circuits that include multiple power rails and power management functions within a single chip. Power ICs are frequently used to power small, battery-operated devices since the integration of multiple functions into a single chip result in more efficient use of space and system power. Functions commonly integrated into a PMIC include voltage converters and regulators, battery chargers, battery fuel gauges, LED drivers, real-time clocks, power sequencers, and power control. The Power ICs consist of Power Management ICs and Application Specific ICs.

Based on application, the satellite segment is expected to lead the space power electronics market from 2021 to 2026. Satellites are increasingly being adopted in modern communication technologies. The introduction of wireless satellite internet and development of miniature hardware systems are exploiting numerous opportunities in the field of satellite-enabled communication. Over the past decade, there has been an explosion of activity in the small satellite world, driven by technology breakthroughs, industry commercialization, and private investments. There is a growing demand for space exploration, which enables small satellites to achieve attitude and orbit control, orbital transfers, and end-of-life deorbiting. Miniaturization of power electronic technologies are performing very well for CubeSats. Also, rapid growth in the NewSpace industry has led to the greater use of modular components like miniaturized rad-hard MOSFETs, gate drivers, DC-DC converters and solid-state relays.

Based on region, North America is expected to lead the space power electronics market from 2021 to 2026. The US is a lucrative market for space power electronics in the North American region. The US government is increasingly investing in advanced space power electronics technologies to enhance the quality and effectiveness of satellite communication, deep space exploration. The increasing investment on satellite equipment to enhance defense and surveillance capabilities of the armed forces, modernization of existing communication in military platforms, critical infrastructure and law enforcement agencies using satellite systems, are key factors expected to drive the space power electronics market in North America. Boeing-manufactured O3b mPOWER satellites are widely using radiation-fault-tolerant DC-DC converter power modules for better power conversion

Contracts were the main strategy adopted by leading players to sustain their position in the space power electronics market, followed by new product developments with advanced technologies. Many companies also collaborated to set up special centers for the research & development of advanced space power electronics equipment.

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Produk Komponen Elektronik Dari Furukawa Jimeunsu

Fuji Electric terkenal dengan singkatan Fe. Perusahaan Jepang beroperasi memproduksi peralatan listrik, pemancar tekanan, inverter, IC, sepeda motor, analisis gas, dan banyak lagi. Fuji Electric didirikan pada tahun 1923 melalui ibukota dan ikatan teknologi antara Furukawa Electric. Fuji sendiri berasal dari "Fu" Furukawa dan "Ji" Jimeunsu dalam romansa Jepang. Seperti dijelaskan pada awalnya bahwa Perusahaan juga menyediakan modul daya tahan fisik untuk beberapa komponen elektronik daya. Biasanya perangkat adalah kekuatan semikonduktor. Komponen ini disolder pada daya substart elektronik yang membawa semikonduktor daya untuk memberikan kontak listrik dan termal pada isolasi listrik jika diperlukan. Banding oleh semikonduktor daya diskrit dalam wadah plastik seperti ke-247 atau ke-220. Paket ini menyediakan kepadatan daya yang lebih tinggi dan lebih andal.

Selain modul daya yang berisi sakelar elektronik tunggal (MOSFET, IGBT, BJT, Thyristor, GTO) atau dioda. Power semikonduktor ini terhubung untuk membentuk sirkuit listrik dengan struktur tertentu yang disebut topologi. Komponen lain yang terkandung dalam modul termasuk kapasitor keramik yang secara fugally meminimalkan overshoot pada voltase switching dan termistor NTC sebagai monitor suhu substrat modul. Contoh topologi teratas diimpor dalam modul Fuji Fuji 2MBI300VN-120-50 Fuji Electric. Biasanya modul ini digunakan pada peralatan konversi listrik seperti drive motor, pasokan daya AC-DC dan pasokan daya tukang las. Sedangkan inverter adalah bentuk energi terbarukan seperti turbin angin dan panel tenaga surya. sumber : https://teramitra.com/shop/2mbi300vn-120-50-fuji-electric/

400+ TOP POWER ELECTRONICS Interview Questions and Answers pdf

POWER ELECTRONICS Interview Questions with Answers :-

1. What is holding current in SCR? It is the minimum current required to hold the SCR in forward conduction state. When the forward current becomes less than holding current, SCR turns from forward conduction state to forward blocking state. 2. What is latching current in SCR? It is the minimum current required to latch(turn on) the SCR from forward blocking state to forward conduction state. 3. What are the different turn on methods of SCR? Forward voltage triggering Gate Triggering dv/dt triggering Temperature triggering Light triggering 4. What is snubber circuit? The snubber circuit is used for the dv/dt protection of the SCR. It is a series combination of a resistor and a capacitor in parallel with the SCR. 5. What is hard switching of the thyristor? When gate current is several times higher than the required gate current, the SCR is said to be hard fired. It reduces the turn ON time and enhances the di/dt capability.

POWER ELECTRONICS Questions 6. What is firing angle? The angle between the zero crossing of the input voltage and the instant the SCR is fired is called as delay angle or firing angle. 7. What is meant by SOA? SOA - Safe Operating Area determines the voltage and current boundary within which the Power Device can be operated without destructive failure. 8. What are the main components used for isolating the Power Circuits, Power Semiconductor from the low-power circuit? Opto-Couplers, Transformers 9. Name some of the current controlled (current driven) devices... SCR, GTO, GTR 10. Name some of the voltage driven ( Voltage controlled) devices IGBT, MCT, IGCT, SIT 11. What is duty cycle? It is the ratio of the ON time of the chopper to total time period of the chopper. D = Ton / 12. Can fuses with an AC voltage rating be used in a DC applications? Fuses must be rated for the voltage AC or DC in which they will be used. Generally, fuses have a DC voltage rating that is half of the maximum AC voltage rating. 13. What are the characteristics of ideal Opamp? Infinite open loop voltage gain Infinite input impedance Zero output impedance Infinite Bandwidth Zero offset voltage 14. For High voltage applications will you prefer MOSFET or IGBT? For High voltage applications we have to use IGBT. Because MOSFETs are low voltage devices. ie, Their voltage rating is lesser than IGBT. General rule is MOSFETs are suitable for applications which has breakdown voltage less than 250V. The IGBTs are suitable for applications which has breakdown voltage upto 1000V. 15. For High frequency applications will you prefer MOSFET or IGBT? Why? For High frequency applications, MOSFET is the right choice of the device. Because MOSFET has low switching losses compare to that of IGBT. General rule of thumb is for low-frequency applications having frequency range upto 20kHz, we have to use IGBT. For high frequency applications having frequency range of more than 200kHz, we have to use MOSFET. POWER ELECTRONICS Interview Questions :: 16. What are the advantages of free wheeling diode in rectifier circuit? The input power factor is improved. It prevents the output voltage from becoming negative. The Load current waveform is improved. 17. What are the types of commutation? Natural commutation Forced commutation 18. What is natural commutation? The process of the current flowing through the thyristor goes through a natural zero and enable the thyristor to turn off is called as natural commutation. 19. What is forced commutation? The process of the current flowing through the thyristor is forced to become zero by external circuitry is called as forced commutation. 20. What are the types of commutation with respect to commutation process? Voltage commutated chopper Current commutated chopper Load commutated chopper 21. What is meant by cyclo-converter? It is also known as frequency changer. It converts input power at one frequency to output power at another frequency with one stage conversion. 22. What are the types of cyclo-converters? Step up cyclo-converter Step down cyclo-converter. 23. What is step down cyclo-converter? It is the converter whose output frequency is less than the input frequency. 24. What is step up cyclo-converter ? It is the converter whose output frequency is more than the input frequency. 25. What does the Voltmeter in AC mode show? Is it RMS value or peak value? Multimeter in AC mode shows RMS value of the voltage or current. Also when it is DC mode it will show the RMS value only. 26. What is the necessity to use the special machines? General purpose motors (Induction motors, synchronous motors) are neither precision speed nor precision position motors. For many automated systems require high precise speed and high precise positioning motors. In such cases special purpose motors like stepper motors, PMDC motors etc. are used. 27. What are the control strategies of chopper? The control strategies of chopper are Pulse width modulation PWM (Variable TON, Constant frequency) Frequency modulation (Constant TON or TOFF, Variable frequency) Current Limit Control (CLC) 28. What is delay angle or what is firing angle of phase controlled rectifier? The delay angle is the angle at which thyristors are triggered after zero crossing. After zero crossing of supply voltage, one pair of thyristors is forward biased. ie, After delay angle(α) these SCRs are triggered. 29. What is Universal Motor? It is defined as a motor which can be operated either on DC or single-phase AC supply at approximately the same speed and output. The universal motor is built exactly like a series DC motor. But a series DC motor cannot be run as a universal motor, even though both motors look the same internally and externally. We cannot use these motors in the industrial applications due to the low efficiency (25% -35%). It has high starting torque and a variable speed characteristic. It runs at dangerously high-speed on no load. 31. Give some examples of power electronics applications in the day-to-day life? We can list a huge number of power electronics applications. Few of the applications which we can see in our daily life are UPS - Uninterruptible Power Supply SMPS - Switch Mode Power Supply Speed Control of Motors ICU 32. What is meant by PMDC? PMDC stands for Permanent Magnet DC Motor A Permanent Magnet DC Motor is similar to an ordinary dc shunt motor except that its field is provided by permanent magnets instead of salient-pole wound field structure. There are three types of permanent magnets used for such motors namely; (i) Alnico Magnets (ii) Ceramic magnets (iii) Rare-earth magnets The major advantages are low noise, small size, high-efficiency, low manufacturing cost. 33. What is meant by commutation? The process of changing the direction of current flow in a particular path of the circuit. It is used to turn off the SCR. 34. Two Bulbs Of 100w And 40w Respectively Connected In Series Across A 230v Supply Which Bulb Will Glow Bright And Why? Since two bulbs are in series they will get equal amount of electrical current but as the supply voltage is constant across the bulb(P=V^2/R).So the resistance of 40W bulb is greater and voltage across 40W is more (V=IR) so 40W bulb will glow brighter. 35. What Is Meant By Knee Point Voltage? Knee point voltage is calculated for electrical Current transformers and is very important factor to choose a CT. It is the voltage at which a CT gets saturated.(CT-current transformer). 36. What Is Reverse Power Relay? Reverse Power flow relay are used in generating station's protection. A generating stations is supposed to fed power to the grid and in case generating units are off,there is no generation in the plant then plant may take power from grid. To stop the flow of power from grid to generator we use reverse power relay. 37. What Are The Advantage Of Free Wheeling Diode In A Full Wave Rectifier? It reduces the harmonics and it also reduces sparking and arching across the mechanical switch so that it reduces the voltage spike seen in a inductive load. 38. What Is The Full Form Of Kvar? We know there are three types of power in Electrical as Active, apparent & reactive. So KVAR is stand for ``Kilo Volt Amps with Reactive component. 39. Definition Of Power Electronics? Power electronics refers to control and conversion of electrical power by power semiconductor devices wherein these devices operate as switches. 40. What Is The Main Purpose Of Power Electronics? The main task of power electronics is to control and convert electrical power from one form to another. AC to DC conversion: Rectifier is used for converting an AC voltage to a DC voltage. Rectifier applications: Variable speed dc drives, Battery chargers, DC power supplies and Power supply for a specific application like electroplating. DC to AC conversion: Inverter circuit is used to convert DC voltage to an alternating voltage. Inverter applications: Emergency lighting systems, AC variable speed drives, Un-interrupted power supplies and Frequency converters. DC to DC conversion: A dc-to-dc converter circuit was called a chopper. Chopper applications: DC drive, Battery charger and DC power supply. AC to AC conversion: A cycloconverter converts an AC voltage to another AC voltage. Cycloconverter applications: It is rarely used. Can be used for controlling the speed of an AC traction motor 41. What Are The Different Operation Regions Of The Thyristor (scr)? SCR or thyristor will have three regions of operations based on the mode in which the device is connected in the circuit. Reverse blocking region: When the cathode of the thyristor is made positive with respect to the anode and no gate signal is applied. In this region SCR exhibits the reverse blocking characteristics similar to diode. Forward blocking region: In this region the anode of the thyristor is made positive with respect to the cathode and no gate signal is applied to the thyristor. A small leakage current flow in this mode of operation of the thyristor. Forward conduction region: when the forward voltage applied between the anode and cathode increases at particular break over voltage avalanche breakdown takes place and thyristor starts conducting current in forward direction. By this type of triggering the device damages the scr. Hence a gate signal is applied before the forward break over voltage to trigger the scr. 42. What Are The Losses That Occur In A Thyristor During Working Conditions? Forward conduction losses Loss due to leakage current during forward and reverse blocking Switching losses at turn on turn off Gate triggering loss 43. What Are The Advantages Of Freewheeling Diode In Rectifier Circuit? The input power factor is improved. It prevents the output voltage from becoming negative. Load current waveform is also improved. 44. Explain The Function Of Cyclo-converter? It is also known as frequency changer. It converts input power at one frequency to output power at another frequency with one stage conversion. 45. What Is An Inverter? A device which converts dc power into ac power at desired output voltage and frequency is called as Inverter. 46. Define Circuit Turn Off Time It is defined as the time during which a reverse voltage is applied across the thyristor during its commutation process. 47. Why The Circuit Turn Off Time Should Be Greater Than Thyristor Turn Off Time? If the circuit turn off time is less than the thyristor turn off time the device may turn on at an undesired instant resulting in commutation failure. 48. What Is Chopper? A dc Chopper is equivalent to the transformer in ac circuit. It is a static switch used to get the variable dc voltage from a constant dc voltage. 49. What Are The Types Of Commutation? (or) Turn Off Methods? Natural commutation Forced commutation 50. What Is Natural Commutation? The process of the current flowing through the thyristor goes through a natural zero and enable the thyristor to turn off is called as natural commutation. 51. What Is Forced Commutation? The process of the current flowing through the thyristor is forced to become zero by external circuitry is called as forced commutation. 52. What Is Step Down Chopper? In step down chopper, the average output voltage is less than the input supply voltage. It is also known as Buck converter. 53. What Is Step Up Chopper? In step up chopper, the average output voltage is more than the input supply voltage. It is also known as Boost converter. 54. What Is Voltage Commutation? The process of a charged capacitor momentarily reverse biases the conducting SCR and turns it off is called as voltage commutation. 55. What Is Current Commutation? The process of a current pulse is made to flow in the reverse direction through the conducting SCR and thus made the net SCR current becomes zero, consequently turn off the SCR is called as current commutation. 56. What Are The Advantages Of Current Commuted Chopper? The advantages of current commutated chopper is; Commutation is reliable as load current is less than the peak commutation current The auxiliary SCR is naturally commutated as its current passes through zero value. The capacitor always remains charged with the correct polarity. 57. What Is Load Commutation? In load commutation, the load current flowing through the thyristor either becomes zero or is transferred to another device from the conducting SCR. 58. Name Some Of The Current Controlled (current Driven) Devices? SCR, GTO, GTR. 59. Name Some Of The Voltage Driven (voltage Controlled) Devices. IGBT, MCT, IGCT, SIT. 60. What Is Meant By Pulse Triggered Devices? To turn on these kind of devices single pulse of short duration is sufficient. Continuous gate voltage of entire on time is not required. It will avoid the hard triggering. Example: Thyristor, GTO 61. What Is Meant By Level-sensitive Devices? In order to maintain these kind of devices in on-state, we need to apply continuous gate current /voltage. Some of the level sensitive devices are: MOSFET, IGBT, MCT, IGCT 62. What Are The Advantages Of Igbt Over Bjt, Mosfet? IGBT has Lower turn on and turn off times than BJT Lower on state conduction losses than MOSFET Excellent safe operating area 63. Why Igbt Is Very Popular Nowadays? Lower hate requirements Lower switching losses Smaller snubber circuit requirements 64. What Are The Different Methods To Turn On The Thyristor? Forward voltage triggering Gate triggering dv/dt triggering Temperature triggering Light triggering 65. What Is The Difference Between Power Diode And Signal Diode? Power diode Constructed with n-layer, called drift region between p+ layer and n+ layer. The voltage, current and power ratings are higher. Power diodes operate at high speeds. Signal diode Drift region is not present. The voltage, current and power ratings are Lower Operates at higher switching speed. 66. Igbt Is A Voltage Controlled Device. Why? Because the controlling parameter is gate-emitter voltage. 67. Power Mosfet Is A Voltage Controlled Device. Why? Because the output (drain) current can be controlled by gate-source voltage. 68. Power Bjt Is A Current Controlled Device. Why? Because the output (collector) current can be controlled by base current. 69. What Is The Relation Between α & β? 70. What Are The Different Types Of Power Mosfet? N-channel MOSFET P-channel MOSFET 71. How Can A Thyristor Turned Off? A thyristor can be turned off by making the current flowing through it to zero. 72. Define Latching Current? The latching current is defined as the minimum value of anode current which it must attain during turn on process to maintain conduction when gate signal is removed. 73. Define Holding Current? The holding current is defined as the minimum value of anode current below which it must fall to for turning off the thyristor. 74. What Is A Snubber Circuit? It consists of a series combination of a resistor and a capacitor in parallel with the thyristors. It is mainly used for dv / dt protection. 75. What Losses Occur In A Thyristor During Working Conditions? Forward conduction losses Loss due to leakage current during forward and reverse blocking. Switching losses at turn-on and turn-off. Gate triggering loss. 76. Define Hard-driving Or Over-driving? When gate current is several times higher than the minimum gate current required, a thyristor is said to be hard-fired or over-driven. Hard-firing of a thyristor reduces its turn-on time and enhances its di/dt capability. 77. Define Circuit Turn Off Time? It is defined as the time during which a reverse voltage is applied across the thyristor during its commutation process. 78. Why Circuit Turn Off Time Should Be Greater Than The Thyristor Turn-off Time? Circuit turn off time should be greater than the thyristor turn-off time for reliable turn-off, otherwise the device may turn-on at an undesired instant, a process called commutation failure. 79. What Is The Turn-off Time For Converter Grade Scrs And Inverter Grade Scrs? Turn-off time for converter grade SCRs is 50 – 100 ms turn-off time for converter grade SCRs and inverter grade SCRs and for inverter grade SCRs is 3 – 50 ms. 80. What Are The Advantages Of Gto Over Scr? Elimination of commutation of commutating components in forced commutation, resulting in reduction in cost, weight and volume. Reduction in acoustic noise and electromagnetic noise due to elimination of commutation chokes. Faster turn-off, permitting high switching frequencies. Improved efficiency of the converters. 81. What Is Meant By Phase Controlled Rectifier? It converts fixed ac voltage into variable dc voltage. 82. Mention Some Of The Applications Of Controlled Rectifier? Steel rolling mills, printing press, textile mills and paper mills employing dc motor drives. DC traction Electro chemical and electro-metallurgical process Portable hand tool drives Magnet power supplies HVDC transmission system 83. What Is The Function Of Freewheeling Diodes In Controlled Rectifier? It serves two process. It prevents the output voltage from becoming negative. The load current is transferred from the main thyristors to the freewheeling diode, thereby allowing all of its thyristors to regain their blocking states. 84. What Are The Advantages Of Free Wheeling Diodes In A Controlled In A Controlled Rectifier? Input power factor is improved. Load current waveform is improved and thus the load performance is better. 85. What Is Meant By Delay Angle? The delay angle is defined as the angle between the zero crossing of the input voltage and the instant the thyristor is fired. 86. What Are The Advantages Of Single Phase Bridge Converter Over Single Phase Mid-point Converter? SCRs are subjected to a peak-inverse voltage of 2Vm in a fully controlled bridge rectifier. Hence for same voltage and current ratings of SCrs, power handled by mid-point configuration is about In mid-point converter, each secondary winding should be able to supply the load power. As such, the transformer rating in mid-point converter is double the load rating. 87. What Is Commutation Angle Or Overlap Angle? The commutation period when outgoing and incoming thyristors are conducting is known as overlap period. The angular period, when both devices share conduction is known as the commutation angle or overlap angle. 88. What Are The Different Methods Of Firing Circuits For Line Commutated Converter? UJT firing circuit. The cosine wave crossing pulse timing control. Digital firing schemes. 89. Give An Expression For Average Voltage Of Single Phase Semiconverters? Average output voltage Vdc = (Vm /Π) (1 + cosα). 90. What Is Meant By Input Power Factor In Controlled Rectifier? The input power factor is defined as the ratio of the total mean input power to the total RMS input volt-amperes. PF = ( V1 I1 cos φ1 ) / ( Vrms Irms) where V1 = phase voltage, I1 = fundamental component of the supply current, φ1 = input displacement angle, Irms = supply rms current. 91. What Are The Advantages Of Six Pulse Converter? Commutation is made simple. Distortion on the ac side is reduced due to the reduction in lower order harmonics. Inductance reduced in series is considerably reduced. 92. What Is Meant By Natural Commutation? Here the current flowing through the thyristor goes through a natural zero and enable the thyristor to turn off. 93. What Is Meant By Forced Commutation? the thyristor is forced to become zero by external circuitry. 94. What Is Meant By Dc Chopper? A dc chopper is a high speed static switch used to obtain variable dc voltage from a constant dc voltage. 95. What Are The Applications Of Dc Chopper? Battery operated vehicles Traction motor control in electric traction Trolley cars Marine hoists Mine haulers Electric braking. 96. What Is Meant By Step-up And Step-down Chopper? In a step- down chopper or Buck converter, the average output voltage is less than the input voltage. In a step- up chopper or Boost converter, the average output voltage is more than the input voltage. 97. Write Down The Expression For Average Output Voltage For Step Down Chopper? Average output voltage for step down chopper V0 = α Vs, α is the duty cycle. 98. Write Down The Expression For Average Output Voltage For Step Up Chopper? Average output voltage for step down chopper Vs V0 = ------ 1 - α α is the duty cycle. 99. What Is Meant By Duty-cycle? Duty cycle is defined as the ratio of the on time of the chopper to the total time period of the chopper. It is denoted by α. 100. What Are The Two Types Of Control Strategies? Time Ratio Control (TRC) Current Limit Control method (CLC) 101. What Is Meant By Trc? In TRC, the value of Ton / T is varied in order to change the average output voltage. 102. What Are The Two Types Of Trc? Constant frequency control Variable frequency control 103. What Is Meant By Fm Control In A Dc Chopper? In frequency modulation control, the chopping frequency f (or the chopping period T) is varied. Here two controls are possible. On-time Ton is kept constant Off period Toff is kept constant. 104. What Is Meant By Pwm Control In Dc Chopper? In this control method, the on time Ton is varied but chopping frequency is kept constant. The width of the pulse is varied and hence this type of control is known as Pulse Width Modulation (PWM). 105. Write Down The Expression For The Average Output Voltage For Step Down And Step Up Chopper? Average output voltage for step down chopper is VO = α VS. Average output voltage for step up chopper is VO = α VS x . 106. What Are The Different Types Of Chopper With Respect To Commutation Process? Voltage commutated chopper. Current commutated chopper. Load commutated chopper. 107. What Is Meant By Voltage Commutation? In this process, a charged capacitor momentarily reverse biases the conducting thyristor and turn it off. 108. What Is Meant By Current Commutation? In this process, a current pulse is made to flow in the reverse direction through the conducting thyristor and when the net thyristor current becomes zero, it is turned off. 109. What Is Meant By Load Commutation? In this process, the load current flowing through the thyristor either becomes zero or is transferred to another device from the conducting thyristor. 110. What Are The Advantages Of Current Commutated Chopper? The capacitor always remains charged with the correct polarity. Commutation is reliable as load current is less than the peak commutation current ICP. The auxiliary thyristor TA is naturally commutated as its current passes through zero value. 111. What Are The Advantages Of Load Commutated Chopper? Commutating inductor is not required. It is capable of commutating any amount of load current. It can work at high frequencies in the order of kHz. Filtering requirements are minimal. 112. What Are The Disadvantages Of Load Commutated Chopper? For high power applications, efficiency becomes very low because of high switching losses at high operating frequencies. Freewheeling diode is subjected to twice the supply voltage. Peak load voltage is equal to twice the supply voltage. The commutating capacitor has to carry full load current at a frequency of half chopping frequency. One thyristor pair should be turned-on only when the other pair is commutated. This can be realized by sensing the capacitor current that is alternating. 113. What Is Meant By Inverter? A device that converts dc power into ac power at desired output voltage and frequency is called an inverter. 114. What Are The Applications Of An Inverter? Adjustable speed drives Induction heating Stand-by aircraft power supplies UPS HVDC transmission 115. What Are The Main Classification Of Inverter? Voltage Source Inverter Current Source Inverter 116. Why Thyristors Are Not Preferred For Inverters? Thyristors require extra commutation circuits for turn off which results in increased complexity of the circuit. For these reasons thyristors are not preferred for inverters. 117. How Output Frequency Is Varied In Case Of A Thyristor? The output frequency is varied by varying the turn off time of the thyristors in the inverter circuit, i.e. the delay angle of the thyristors is varied. 118. Give Two Advantages Of Csi? CSI does not require any feedback diodes. Commutation circuit is simple as it involves only thyristors. 119. What Is The Main Drawback Of A Single Phase Half Bridge Inverter? It require a 3-wire dc supply. 120. Why Diodes Should Be Connected In Antiparallel With Thethyristors In Inverter Circuits? For RL loads, load current will not be in phase with load voltage and the diodes connected in anti parallel will allow the current to flow when the main thyristors are turned off. These diodes are called feedback diodes. 121. What Types Of Inverters Require Feedback Diodes? VSI with RL load. 122. What Is Meant A Series Inverter? An inverter in which the commutating elements are connected in series with the load is called a series inverter. 123. What Is The Condition To Be Satisfied In The Selection Of L And C In A Series Inverter? 4L R2 C 124. What Is Meant A Parallel Inverter? An inverter in which the commutating elements are connected in parallel with the load is called a parallel inverter. 125. What Are The Applications Of A Series Inverter? The thyristorised series inverter produces an approximately sinusoidal waveform at a high output frequency, ranging from 200 Hz to 100kHz. It is commonly used for fixed output applications such as Ultrasonic generator. Induction heating. Sonar Transmitter Fluorescent lighting. 126. How Is The Inverter Circuit Classified Based On Commutation Circuitry? Line commutated inverters. Load commutated inverters. Self commutated inverters. Forced commutated inverters. 127. What Is Meant By Mcmurray Inverter? It is an impulse commutated inverter which relies on LC circuit and an auxiliary thyristor for commutation in the load circuit. 128. What Are The Applications Of A Csi? Induction heating Lagging VAR compensation Speed control of ac motors Synchronous motor starting. 129. What Is Meant By Pwm Control? In this method, a fixed dc input voltage is given to the inverter and a controlled ac output voltage is obtained by adjusting the on and off periods of the inverter components. This is the most popular method of controlling the output voltage and this method is termed as PWM control. 130. What Are The Advantages Of Pwm Control? The output voltage can be obtained without any additional components. Lower order harmonics can be eliminated or minimized along with its output voltage control. As the higher order harmonics can be filtered easily, the filtering requirements are minimized. 131. What Are The Disadvantages Of The Harmonics Present In The Inverter System? Harmonic currents will lead to excessive heating in the induction motors. This will reduce the load carrying capacity of the motor. If the control and the regulating circuits are not properly shielded, harmonics from power ride can affect their operation and malfunctioning can result. Harmonic currents cause losses in the ac system and can even some time produce resonance in the system. Under resonant conditions, the instrumentation and metering can be affected. On critical loads, torque pulsation produced by the harmonic current can be useful. 132. What Are The Methods Of Reduction Of Harmonic Content? Transformer connections Sinusoidal PWM Multiple commutation in each cycle Stepped wave inverters 133. Compare Csi And Vsi? VSI: Input voltage is maintained constant The output voltage does not depend on the load The magnitude of the output current and its waveform depends on the nature of the load impedance It requires feedback diodes Commutation circuit is complicated i.e. it contains capacitors and inductors. CSI: Input current is constant but adjustable The output current does not depend on the load The magnitude of the output voltage and its waveform depends on the nature of the load impedance It does not requires feedback diodes Commutation circuit is simple i.e. it contains only capacitors. 134. What Are The Disadvantages Of Pwm Control? SCRs are expensive as they must possess low turn-on and turn-off times. 135. What Does Ac Voltage Controller Mean? It is device which converts fixed alternating voltage into a variable voltage without change in frequency. 136. What Are The Applications Of Ac Voltage Controllers? Domestic and industrial heating Lighting control Speed control of single phase and three phase ac motors Transformer tap changing 137. What Are The Advantages Of Ac Voltage Controllers? High efficiency Flexibility in control Less maintenance 138. What Are The Disadvantages Of Ac Voltage Controllers? The main draw back is the introduction of harmonics in the supply current and the load voltage waveforms particularly at low output voltages. 139. What Are The Two Methods Of Control In Ac Voltage Controllers? ON-OFF control Phase control 140. What Is The Difference Between On-off Control And Phase Control? ON-OFF control: In this method, the thyristors are employed as switches to connect the load circuit to the source for a few cycles of the load voltage and disconnect it for another few cycles. Phase control: In this method, thyristor switches connect the load to the ac source for a portion of each half cycle of input voltage. 141. What Is The Advantage Of On-off Control? Due to zero-voltage and zero current switching of thyristors, the harmonics generated by the switching action are reduced. 142. What Is The Disadvantage Of On-off Control? This type of control is applicable in systems that have high mechanical inertia and high thermal time constant. 143. What Is The Duty Cycle In On-off Control Method? Duty cycle K = n/ (n + m), where n = number of ON cycles, m = number of OFF cycles. 144. What Is Meant By Unidirectional Or Half-wave Ac Voltage Controller? Here the power flow is controlled only during the positive half-cycle of the input voltage. 145. What Are The Disadvantages Of Unidirectional Or Half-wave Ac Voltage Controller? Due to the presence of diode on the circuit, the control range is limited and the effective RMS output voltage can be varied between 70.7% and 100%. The input current and output voltage are asymmetrical and contain a dc component.If there is an input transformer, saturation problem will occur It is only used for low power resistive load. 146. What Is Meant By Bidirectional Or Half-wave Ac Voltage Controller? Here the power flow is controlled during both cycles of the input voltage. 147. What Is The Control Range Of Firing Angle In Ac Voltage Controller With Rl Load? The control range is Φ Average output voltage, rms value of output voltage expression. 166. Describe The Working Of 3Φ Fully Controlled Bridge Converter In The Rectifying Mode And Inversion Mode. And Derive The Expressions For Average Output Voltage And Rms Output Voltage? 3Φ full converter bridge circuit waveforms of vo , io , iA, vs Operation Average output voltage expression. 167. Describe The Working Of 3Φ Semi Converter. And Derive The Expressions For Average Output Voltage And Rms Output Voltage? 3Φ semi converter bridge circuit waveforms of vo , io , iA, vs Operation Average output voltage expression. 168. Describe The Working Of Dual Converter? 3Φ dual converter bridge circuit waveforms of vo , io , vo1 , vo2 , i1, i2 , vs , ic Operation for with circulating current and without circulating current load voltage expression, peak value icp 169. For A Type A Chopper (first Quadrant), Express The Following Variables As A Function Of Vs, R And Duty Cycle In Case The Load Is Resistive Average Output Voltage And Current? chopper circuit output voltage & current waveforms Average load voltage expression 170. Describe The Principle Of Step-up Chopper. Derive An Expression For The Average Output Voltage In Terms Of Input Dc Voltage & Duty Cycle? chopper circuit output voltage & current waveforms Average load voltage expression 171. Describe The Working Of Four Quadrant Chopper? chopper circuit operation 172. Explain The Working Of Current Commutated Chopper With Aid Of Circuit Diagram And Necessary Wave Forms. Derive An Expression For Its Output Voltage? chopper circuit Modes of operation- equivalent circuit diagrams Current & voltage waveforms Design 173. Explain The Working Of Voltage Commutated Chopper With Aid Of Circuit Diagram And Necessary Waveforms. Derive An Expression For Its Output Voltage? chopper circuit Modes of operation- equivalent circuit diagrams Current & voltage waveforms Design of C & L 174. Describe The Operation Of Series Inverter With Aid Of Diagrams. Describe An Expression For Output Frequency, Current And Voltages. What Are The Disadvantages Of Basic Series Inverter? series inverter circuit Current & voltage waveforms Operation Expression for output frequency, VL, VC 175. State Different Methods Of Voltage Control Inverters. Describe About Pwm Control In Inverter? External control of ac output voltage External control of dc input voltage Internal control of Inverter PWM inverter Single pulse modulation Multiple pulse modulation Sinusoidal pulse modulation 176. Explain The Operation Of 3 Bridge Inverter For 1800 Degree Mode Of Operation With Aid Of Relevant Phase And Line Voltage Waveforms? Inverter circuit operation- equivalent circuits Waveforms of phase and line voltage 177. Explain The Operation Of 3 Bridge Inverter For 1200 Degree Mode Of Operation With Aid Of Relevant Phase And Line Voltage Waveforms? Inverter circuit Operation- equivalent circuits Waveforms of phase and line voltage 178. Draw The Circuit Diagram Of 1Φ Auto Sequential Commutated Current Source Inverter And Explain Its Operation With Equivalent Circuits For Different Modes And Necessary Waveforms? Inverter circuit Modes of operation- equivalent circuits Waveforms of ic, vc , io Expression for tc, vc, vL 179. Draw The Circuit Diagram Of 1Φ Capacitor Commutated Current Source Inverter And Explain Its Operation With Equivalent Circuits For Different Modes And Necessary Wave Forms? Inverter circuit Modes of operation- equivalent circuits Waveforms of ic, vo , io, iT1, iT2, vT1, vT2 Expression for vc, vL , vo , io, tc 180. Explain The Operation Of Multistage Control Of Ac Voltage Controllers With Neat Diagram? Circuit diagram Operation 181. Explain The Operation Of 1Φ Ac Voltage Controller With Rl Load? Circuit diagram Operation Waveforms 182. Explain The Operation Of Sequence Control Of Ac Voltage Controller? Circuit diagram Operation Waveforms 183. Explain The Operation Of 1 Sinusoidal Ac Voltage Controller? Circuit diagram Operation Waveforms 184. For A 1Φ Voltage Controller, Feeding A Resistive Load, Draw The Waveforms Of Source Voltage, Gating Signals, Output Voltage And Voltage Across The Scr. Describe The Working With Reference To Waveforms Drawn? Circuit diagram Operation Waveforms POWER ELECTRONICS Interview Questions and Answers pdf free download :: Read the full article

GTO Thyristor Module Market Analysis- Size, Share, Growth, Industry Demand, Forecast, Application Analysis To 2025

The GTO Thyristor Module Market study offered an in-depth Competitive landscape review to give you a full picture of the global market's current and future competitive scenarios. The GTO Thyristor Module industry report describes the numerous factors that affect market share, competitive intelligence, and opportunities for growth. GTO Thyristor Module study was carried out using an objective solution of primary and secondary data, including feedback from industry-main participants. In addition to a SWOT analysis of key vendors, the GTO Thyristor Module industry report includes a detailed business and product landscape.

Global GTO Thyristor Module Market (2019 2025) Report covers the information of the businesses, including delivery, cost, revenue, gross profit, distribution of market, etc. The market report for GTO Thyristor Module also covers all regions and countries around the world, showing a status of regional development, including market size, volume and value, and price data.

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Detailed profiles of companies are also included in the GTO Thyristor Module report to evaluate their strategies, key product offerings, and recent developments.

The Key Players in The Global Market Are:

ABB Ltd. (Switzerland), Danfoss A/S (Denmark), Fairchild Semiconductor International (U.S.), Fuji Electric (Japan), Hitachi Ltd (Japan), Infineon Technologies AG (Germany), Mitsubishi Electric Corp (Japan), Renesas Electronics Corp (Japan), SEMIKRON International GmbH (Germany), Toshiba Corp (Japan)

Market can be Segmented Into Product Types as:

High Power

Medium Power

Low Power

Market can be Segmented Into Applications as:

Power

Renewable

Motor Drive

Consumer Electronics

Others

Market Segment by Regions:

China

USA

Europe

Japan

Korea

India

Southeast Asia

South America

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The GTO Thyristor Module report also provides a comprehensive analysis of price trends, business strategies, client targeting, marketing, and advertising strategies. Many quantitative methods such as the Porters Five Forces Model, Value Chain Analysis, and SWOT Analysis are used to provide insight into the competition that prevails in the GTO Thyristor Module industry.

Research objectives:

To recognize the GTO Thyristor Module market structure by defining its different sub-segments.

Focuses on the leading global manufacturers of GTO Thyristor Module to identify, explain and evaluate sales volume, price, market share, competitive market environment, SWOT analysis and development plans in the coming years.

The GTO Thyristor Module should be evaluated with regard to individual growth rates, potential expectations and their contribution to the total market.

Sharing detailed information on key factors affecting GTO Thyristor Module market growth (growth potential, prospects, drivers, threats and risks unique to the industry).

Projecting GTO Thyristor Module submarket use in relation to major regions (along with their respective target countries).

To evaluate GTO Thyristor Module industry trends such as extensions, deals, new releases of products and business acquisitions.

The GTO Thyristor Module key players are strategically profiled and their growth strategies are evaluated in depth.

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Global GTO Thyristor Module Market 2020, Production, Consumption, Revenue, by Major Companies

Global GTO Thyristor Module Market 2020, Production, Consumption, Revenue, by Major Companies

In this report,XYZ-research offers a comprehensive analysis of key market trends in the global GTO Thyristor Module market. It also includes discussion on historical trends, current market status, competitive landscape, growth opportunities and challenges which are backed by factful feedbacks. The report extensively provides quantitative analysis of the industry from 2014-2026,by Region, Type,…

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Global GTO Thyristor Module Market Analysis & Forecast Research Report 2020-2026

Global GTO Thyristor Module Market Analysis & Forecast Research Report 2020-2026

A fresh specialized intelligence report published by KandJ Market Research with the title “Global GTO Thyristor Module Market (Sales, Revenue, Price, Gross Profit and Competitors Analysis of Major Market) from 2015-2026” has the ability to help the decision-makers in the most important market in the world that has played a significantly important role in making a progressive impact on the global…

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STATCOM UPS Market Projected to Witness a Single-Digit CAGR During 2020-2027

Global STATCOM UPS Market Report 2020 – 2027 Overview, Share, Revenue, Price and Gross Margin, Trend and Forecast is a professional and in-depth study on the current state of the STATCOM UPS industry.

The global STATCOM UPS market is completely analyzed and researched in the report to help players to develop their business tactics and ensure long-term success. The report provides useful STATCOM UPS information to players and proposes results-oriented strategies for achieving a competitive edge. It also analyzes the STATCOM UPS industry future trends, risks and entry barriers, status, development rate, STATCOM UPS market factors, opportunities and challenges, sales channels, distributors and Porter’s Five Forces Analysis.

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Leading players in the market:

General Electric, Bharat Heavy Electricals Limited (BHEL), NR Energy Solutions, ABB India Limited, Crompton Greaves Limited, Schneider Electric, Mitsubishi Electric, Signotron India, Veeral Controls, Power One Micro Systems

Differentiation of the market based on types of product:

Gate Turn-Off Thyristors (GTO) STATCOM

Insulated Gate Bipolar Transistors (IGBT) STATCOM

Differentiation of the market based on types of its application:

Power Substations

Automobile Industry

Oil & Gas

Mining

Others

Geographical Classification of the market:

North America (U.S., Canada, Mexico) Europe (Germany, U.K., France, Italy, Russia, Spain, etc.) Asia-Pacific (China, India, Japan, Southeast Asia, etc.) South America (Brazil, Argentina, etc.) Middle East & Africa (South Africa, Saudi Arabia, etc.)

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A chapter-wise format in the form of numbers, graphical representations are given. The STATCOM UPS leading industry players all around the world are identified to help in-process state and direction of the business. In addition, complete STATCOM UPS information of these manufacturers and their market share by various regions, with the company and product introduction. The STATCOM UPS is a crucial source for each market segment, speculator, and other players.

STATCOM UPS solutions help customers in various application areas such as supply chain analytics, risk study, demand forecasting, and vendor management. The STATCOM UPS market solutions include various modules, such as financial survey, real-time and batch data analysis, category management, and compliance and policy management. The implementation of STATCOM UPS modules in the organizations will lead to higher data optimization, automated data cleansing, and sourcing category analysis.

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Save and reduce time by identifying STATCOM UPS production, volume, leading players and segments

Highlights key business preference so as to help STATCOM UPS industry to adjust their business strategies

Key findings and recommendations illustrate important disruptive STATCOM UPS market developments, helping players to develop successful future strategies.

Develop STATCOM UPS business expansion plans by using substantial growth providing developed and rising markets.

Analyze in-depth global STATCOM UPS market trends and outlook as well as the factors driving the market, similarly as those hindering it.

Improve the decision-making process by recognizing approaches for related goods, segmentation and STATCOM UPS market verticals that underpin industrial interest.

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Locomotive Market Analysis 2016-2021: Key Findings, Regional Analysis, Key Players

Locomotive Power Conversion System Market is primarily driven by the growing demand for energy efficient locomotives and increasing urbanization around the globe. The locomotive market for power conversion systems is projected to grow at a CAGR of 2.92%, to reach a market size of USD 4.27 Billion by 2021.

Browse 71 market data Tables and 54 Figures spread through 152 Pages and in-depth TOC on “Locomotive Market”

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Key Players of Locomotive Market:

Hitachi Ltd (Japan)

Siemens AG (Germany)

CSR Corporation (China)

Bombardier Transportation (Canada)

Alstom S.A (France)

AEG Power solutions (Germany)

Traction Motor is the largest segment in power conversion components in locomotive

Traction motor is projected to dominate the locomotive market for power conversion systems during the forecast period, in terms of value. The high demand for traction motors can be attributed to the benefits offered by this component, as it helps in improving the efficiency by reducing losses, which can be categorized into iron losses, copper losses, mechanical losses, and harmonic losses. Thus, advancements in traction motor technology are helping manufacturers overcome challenges related to weight and energy efficiency, and thus leading to increase in the demand for the same.

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IGBT module market is anticipated to lead the market by technology

With the advancement in technology from GTO thyristor module to IGBT module, there is significant reduction in energy consumption that leads to reduction in life-cycle costs of the locomotive. Additionally, the pressure of locomotive operators to maintain and enhance the railways’ image as the most environmentally friendly mode of transport has forced them to develop technologies such as IGBT module and SiC inverter. Thus, with an increase in need for energy efficient solutions, weight reduction and power loss reduction while changing the state of current from Ac to DC there has been an increase in the demand for transmission based modules.

Asia-Pacific: The largest and fastest-growing market for rolling stock power conversion system

The Asia-Pacific region includes key countries such as China, Japan, and India. The locomotive market for power conversion system in the region is expected to grow at a promising CAGR, owing to the increasing number of rail infrastructural projects and growing urbanization. According to Ministry of Railways (India), the ministry has planned to spend approximately USD 142 Billion in the next five years on expansion and modernization. Robust economic growth, coupled with the growing urban population leads to increase in demand for power and conversion systems during the forecast period.

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MarketsandMarkets™ provides quantified B2B research on 30,000 high growth niche opportunities/threats which will impact 70% to 80% of worldwide companies’ revenues. Currently servicing 7500 customers worldwide including 80% of global Fortune 1000 companies as clients. Almost 75,000 top officers across eight industries worldwide approach MarketsandMarkets™ for their painpoints around revenues decisions.

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Locomotive Market 2021 | Here's All You Need to Know

“Locomotive Market by Power Conversion Components (Rectifier, Inverter, Alternator, APU & Traction Motor), Technology (IGBT module, GTO Thyristor Module & SiC Module), Rolling Stock Type, and by Region - Global Trends and Forecast to 2021", The Locomotive market for power conversion systems is projected to grow at a CAGR of 2.92%, to reach a market size of USD 4.27 billion by 2021. A major factor driving the growth of the locomotive market for power conversion systems is rapid urbanization in emerging economies. In view of the rapid growth in urbanization and industrialization, the need for power and conversion systems is anticipated to increase during the forecast period. Moreover, this will require a substantial increase in power generation capacity and in turn infrastructure investments in this segment.

“Increase in need for energy efficient technologies will give rise to the demand for IGBT power modules”

The market for IGBT power modules is anticipated to gradually replace the market for GTO Thyristor modules, owing to the advantages offered in terms of efficiency and power density, and the ability to provide more power in a smaller space.

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Players’ profiled in the report are:

· Aisen Seiki Company Ltd. (Japan),

· ZF TRW (Germany),

· Borgwarner Inc. (U.S.),

· Continental AG (Germany),

· Magna International Inc. (Getrag) (U.S.),

· Eaton Plc. (Republic of Ireland),

· Jatco Ltd. (Nissan) (Japan),

· Allison Transmission Inc. (U.S.),

· GKN PLC. (U.K.),

· Schaeffler AG (Germany)

The traction motor is the fastest growing segment among locomotive power conversion components”

Due to the increasing need for the development of energy efficient solutions for power conversion systems, there have been advancements in traction motors, which is driving the demand for energy efficient traction motors. The increase in the demand for traction motors can be attributed to the benefits offered such as weight reduction and decreased fuel consumption.

“Asia-Pacific: Fastest-growing market for locomotive market for power conversion systems”

The Asia-Pacific is estimated to dominate the locomotive market for power conversion systems and is projected to grow at the highest CAGR during the forecast period. This growth can be credited to improving socio-economic conditions in emerging economies such as China, India, Indonesia, and Thailand. The sizeable populations in countries such as China and India have resulted in an increase in the need for public transport, which in turn has resulted in an increase in the number of government rail projects.

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Fertilizer Latino Americano Conference & Exhibition 2019 at Brazil(Sao Paulo) 2019-January

Fertilizer Latino Americano Conference & Exhibition 2019 at Brazil(Sao Paulo) 2019-January

Fertilizer Latino Americano Conference & Exhibition 2019 trade show event mainly focuses on:

hev system Trade Fairs, ev drive system Shows, in-wheel motor system Events, rechargeable batteries Exhibitions, next-generation batteries Fairs, lithium ion batteries business opportunities, lithium polymer batteries B2C ideas, thin film lithium ion batteries B2B ideas, nickel metal hydride (nimh) batteries B2C opportunities, electric double-layer capacitors Meetings, lead acid batteries info, nas batteries contact info, secondary air batteries contact links, capacitors Shows, condensers B2B ideas, motor technologies Shows, automotive motors companies, permanent magnet motors Shows, induction motors business ideas, dc motors business ideas, brush-less motors companies contacts, stepping (stepper) motors Expos, servo motors companies, linear motors Trade Fairs, reluctance motors B2C opportunities, variable-speed drive Shows, speed reducers Exhibitors, magnets companies list, winding wires Trade Fairs, coils Meetings, magnetic steel sheets business ideas, bearing business opportunities, core Shows, housing Exhibitions, brushes business contacts, commutators info, shaft companies list, rotors business contacts, controllers Trade Fairs, micro controllers business opportunities, driver ics Trade Shows, sensors Exhibitors Directory, control modules B2B ideas, control software business, torque measuring devices Expos, static measuring devices Trade Fairs, magnetic measuring instrument Exhibitions, electromagnetic field analysis business opportunities, heat transfer analysis companies contacts, motor design software Trade Fairs, production facilities Exhibitors, winding machines companies list, magnetizers events, welding machines Meetings, processing machines B2C opportunities, inverters companies, peripherals Events, converters B2C opportunities, dc-ac inverters events, dc-dc converters events, buck-boost converters contact list, pcu Trade Shows, power devices contacts list, diodes business ideas, thyristors Exhibitors Directory, triacs Exhibitors, gto contacts list, mosfet business, igbt B2B Opportunities, sic devices Trade Shows, passive elements Business events, resistors business contacts, heat-resistant products Events, heat dissipation Exhibitions, heat resistance technologies contact links, cooling devices Exhibitors Directory, inverter evaluation and testing system directory, chargers B2C opportunities, car chargers network, ev quick chargers and harnesses. B2C opportunities, motor Trade Shows, inverters manufactures B2C ideas, automotive component manufacturers and rechargeable batteries manufacturers are come here to watch over the exhibition. contact links

related products/services/industry/business. This trade show opens top business opportunities to exhibit products and services from hev system contact list, ev drive system companies, in-wheel motor system Expos, rechargeable batteries network, next-generation batteries contact info, lithium ion batteries events, lithium polymer batteries contacts list, thin film lithium ion batteries Trade Fairs, nickel metal hydride (nimh) batteries contact list, electric double-layer capacitors contact info, lead acid batteries B2B Opportunities, nas batteries companies contacts, secondary air batteries Meetings, capacitors Fairs, condensers info, motor technologies contact links, automotive motors Exhibitors, permanent magnet motors B2B ideas, induction motors contact info, dc motors Trade Shows, brush-less motors contact list, stepping (stepper) motors Expos, servo motors Exhibitors, linear motors info, reluctance motors network, variable-speed drive Exhibitors, speed reducers companies, magnets events, winding wires Trade Shows, coils contact list, magnetic steel sheets Business events, bearing B2C ideas, core Meetings, housing events, brushes business, commutators Exhibitors, shaft companies contacts, rotors contacts list, controllers Trade Shows, micro controllers Expos, driver ics Exhibitors, sensors contact info, control modules Fairs, control software business opportunities, torque measuring devices events, static measuring devices Meetings, magnetic measuring instrument companies, electromagnetic field analysis events, heat transfer analysis Events, motor design software contact links, production facilities Exhibitors, winding machines info, magnetizers B2B Opportunities, welding machines Exhibitors Directory, processing machines Events, inverters Trade Fairs, peripherals Meetings, converters B2C opportunities, dc-ac inverters directory, dc-dc converters Exhibitions, buck-boost converters Exhibitions, pcu contact links, power devices contacts list, diodes Exhibitors, thyristors Trade Shows, triacs companies, gto Exhibitions, mosfet B2B ideas, igbt contact links, sic devices Expos, passive elements business contacts, resistors Trade Shows, heat-resistant products Exhibitors, heat dissipation Exhibitions, heat resistance technologies Fairs, cooling devices Exhibitors, inverter evaluation and testing system Exhibitions, chargers events, car chargers business, ev quick chargers and harnesses. business, motor Trade Fairs, inverters manufactures business opportunities, automotive component manufacturers and rechargeable batteries manufacturers are come here to watch over the exhibition. Shows industry.

Find More Details about Fertilizer Latino Americano Conference & Exhibition 2019 event...

We help you to grow your business by providing the required contact details of all companies participating in this event and you can download the same data in excel format using the above links. Location of the Event:Brazil(Sao Paulo) Year-Month:2019-January Official Website:Event Website source http://www.expomahal.com/2019/01/fertilizer-latino-americano-conference.html

Locomotive Market Research Report | Key Findings, Major Companies Analysis and Forecast to 2025

Locomotive Market Research Report: Information, by Type (Diesel, Electric, and Others), Technology (IGBT Module, GTO Thyristor, and SiC Module), Component (Rectifier, Inverter, Traction Motor, Alternator, and Others), and Region (North America, Europe, Asia-Pacific, and the Rest of the World)– Forecast till 2025

Bharat Heavy Electricals Limited, Berliner Maschinenbau, Lokomo, China Northern Rail Corporation Limited, Bombardier Transportation, Brookville Equipment Corporation, GE Transportation, Alstom Ferroviaria S.p.A are some of the prominent players profiled in MRFR Analysis and are at the forefront of competition in the Global  Locomotive Market. Locomotive Market – Overview Builders are ramping up production and at the same time continuing to tweak product lines in order to meet railroads efficiency and environmental-compliance needs along with demands for enhanced electronics associated with distributed power initiatives and positive train control (PTC) implementation.                                                      Increasing rate of urbanization is contributing towards the growth of locomotive industry among the general public. Expansion of rail networks in majority of developed as well as developing nations as well as increasing concern amongst the individuals regarding environmental sustainability has lead to a positive impact on the global locomotives Market Size. Significant investment by authorities across the globe in development of railway infrastructure for freight and high speed trains has also resulted in the growth of global  Locomotive Market. Diesel  Locomotive Market is also growing significantly. Majority of the Size is generated from the after-Market Market Size which encompasses repair and maintenance of the approximately 120,000 diesel locomotives operated worldwide. Increasing transport demand, as well as fleet refurbishments and new product platforms will spur the global  Locomotive Market. A substantial proportion of locomotives are either operated solely for freight or used universally. The proportion of units used specifically for passenger transport has declined rapidly in the last few years. The major trend in the Market Size is the increase in the use of autonomous locomotive engines for long distance transport. Increasing preference for non-polluting and energy-efficient transport is majorly driving the growth of the Market Size. Also, the growth of the Market Size is driven by the increasing government expenditure on developing rail systems for public transport. Locomotive Market – Competitive Analysis The global  Locomotive Market was significantly affected by the economic downturn in 2008-2010. Many operators chose to rehabilitate old locomotives instead of acquiring new ones. Companies such as Alstom or Siemens signed valuable contracts with the national Russian operator RZD. Product innovation and a widespread need for fleet renewal will drive the electric  Locomotive Market. An increasing trend towards local suppliers is evident in Eastern Europe. New electric locomotive manufacturers with their production facilities include Pesa and ZNLE in Poland, the Czech manufacturer Skoda, and Tülomsas in Turkey.

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Industry/ Innovation/ Related News: Dec 2017- Bharat Heavy Electricals Limited has bagged Rs9900mn contract for the manufacture and supply of 150 electric locomotives from Indian Railways. The company is already executing an order for 50 numbers of similar rating locomotives for Indian Railways. These locomotives will have many firsts like ergonomically designed AC cabins for the comfort of drivers; tri-plate console for brake system resulting in compact and clean layout; state-of-the art cable management system with EPDM modules, etc. December, 2017- Bombardier and Mercitalia Rail Signed Contract for 40 TRAXX DC3 Locomotives and Long-Term Fleet Maintenance Service. It also includes options for up to 20 additional locomotives and maintenance services, as well as an option for additional eight years of maintenance on the whole fleet. December, 2014-  State-owned China CNR Corporation Limited (CNR) and China South Locomotive & Rolling Stock Corporation Limited (CSR) merged to form a single company- China Railway Stock Corp. (CRRC) which was valued at USD 26 billion. All existing contracts nationally and internationally were transfered to CRRC, including orders worth USD 275 million from Argentina and a USD 570 million contract to supply passenger cars for Boston’s subway system. Locomotive Market – Segmentation The  Locomotive Market can be segmented in to 3 key dynamics for the convenience of the report and enhanced understanding; Segmentation by Technology - conventional locomotive, turbocharged and MAGLEVS Segmentation by Application - Passenger and Freight Segmentation by Regions: North America, Europe, APAC and Rest of the World. Locomotive Market – Regional Analysis The Asia-Pacific region is estimated to dominate the  Locomotive Market and is projected to grow at the highest CAGR during the forecast period. This growth can be attributed to the improving socio-economic conditions in developing countries such as China, India, Indonesia, and Thailand. The increased populations in countries such as China and India has resulted in increase in need for public transport, which in turn results in an increase in the number of government rail projects. The largest national fleets of electric locomotives are found today in China, Russia and India followed by Germany, Italy and France.In Western Europe, demand will always exist for new electric locomotives due to the overall size of the region's fleet, while Europe's high prices ensures it remains important for total Market Size volume.

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Locomotives Market Key Trends and Opportunity Analysis 2026

Locomotives are powered rail transport vehicles which provide motive power to trains with no payload capacity, and their only use is to pull the trains along tracks. However, nowadays push-pull operations have become common, in which the trains have locomotives at the rear, front, or at both the ends. Electric locomotives are preferred since, they deliver high performance, lower maintenance cost, and lower energy costs and reduced pollution levels.

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Increase in urbanization, environmental sustainability, and a broad spectrum of impending rail projects, growth in demand for energy efficient rolling stock, and an expanding infrastructure of rail networks are the major factors driving the locomotives market. The extensive rail networks globally further supporting the growth of electric locomotives to meet the demand as a public transport. In addition, technological progress such as launch of the SiC module, IGBT module and the auxiliary power units has resulted in a surging demand for locomotive engines. This progress has reduced the emission level, escalated the fuel efficiency, and lowered overall weight. This has led to a reducing power loss when switching the current state.

However, there are certain restraining factors which are impeding the growth in the global locomotives market. Capital intensiveness of rolling stock, high maintenance cost, and overhaul cost are the key restraining factors hampering the growth of the market. In spite of these market challenges, the global market is expected to grow at a decent rate in the coming years. Increase in mining and industrial activities coupled with technological advancement in the field of SiC inverters will further drive the growth of the locomotives market.

The global locomotives market is segmented on the basis of motive power, power conversion component, technology, end use, operational engine, wheel arrangement, and regions. On the basis of motive power, the market is segmented into steam, diesel, gasoline, electric, hybrid, steam diesel hybrid, fuel cell electric, atomic electric, and gas turbine electric. Motive power is a natural agent such as water, steam, electricity, and wind which helps in imparting motion to the engine of a locomotive. The diesel locomotives are further classified into early oil locomotive engines, first true diesel engines, modern diesel engines, and slugs or drones. Besides, the market is segregated based on power conversion component into rectifier, traction, inverter, alternator, and auxiliary power conversion unit. Some of the functions of power conversion components include, conversion of electric energy from one form of energy, adjusting voltage frequency and converting alternate current to direct current. Moreover, based on technology, the market is categorized into GTO thyristor module, IGBT power module, and SiC power module.

Gate Turn-Off Thyristor module is a high powered semi-conductor device, while IGBT power modules are found in traction invertors. SiC module or silicon carbide module are used as oil additives   to reduce friction, and emissions. Furthermore, the market is divided on the basis of end use into passenger, freight, and shunting or switcher locomotives. Additionally, on the basis of operational engine, the market segments are train engine, banking engine, pilot engine, station pilot, and light engine. The market is further segmented based on wheel arrangement into AAR, Whyte notation systems, and UIC classification. Wheel arrangement is a system for classifying the distribution of wheels of a locomotive. Since the wheels of a locomotive are optimized for different use, they form an integral part in the functioning of the locomotive system.

Based on geography the locomotive market has been segmented into North America, Europe, Asia Pacific, Middle East and Africa (MEA), and Latin America. Asia Pacific is expected to hold the largest market share. It is also the fastest growing region.

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Some of the leading companies operating in this market are, Hitachi Ltd. (Japan), Siemens AG (Germany), CSR Corporation (China), Bombardier Transportation (Canada), Alstom SA (France), and AEG Power Solutions (Germany).

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GTO Thyristor Module Market Research Report 2017

In this report, the global GTO Thyristor Module market is valued at USD XX million in 2016 and is expected to reach USD XX million by the end of 2022, growing at a CAGR of XX% between 2016 and 2022.

Geographically, this report is segmented into several key Regions, with production, consumption, revenue million USD, market share and growth rate of GTO Thyristor Module in these regions, from 2012 to 2022 forecast, covering

United States

EU

China

Japan

South Korea

Taiwan

Global GTO Thyristor Module market competition by top manufacturers, with production, price, revenue value and market share for each manufacturer; the top players including

ABB Ltd. Switzerland

Danfoss A/S Denmark

Fairchild Semiconductor International U.S.

Fuji Electric Japan

Hitachi Ltd Japan

Infineon Technologies AG Germany

Mitsubishi Electric Corp Japan

Renesas Electronics Corp Japan

SEMIKRON International GmbH Germany

Toshiba Corp Japan

On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into

High Power

Medium Power

Low Power

On the basis of the end users/applications, this report focuses on the status and outlook for major applications/end users, consumption sales, market share and growth rate for each application, including

Power

Renewable

Motor Drive

Consumer Electronics

Others

Table of Contents

1 GTO Thyristor Module Market Overview 1.1 Product Overview and Scope of GTO Thyristor Module 1.2 GTO Thyristor Module Segment by Type Product Category 1.2.1 Global GTO Thyristor Module Production and CAGR % Comparison by Type Product Category20122022

2 Global GTO Thyristor Module Market Competition by Manufacturers 2.1 Global GTO Thyristor Module Capacity, Production and Share by Manufacturers 20122017 2.1.1 Global GTO Thyristor Module Capacity and Share by Manufacturers 20122017 2.1.2 Global GTO Thyristor Module Production and Share by Manufacturers 20122017

3 Global GTO Thyristor Module Capacity, Production, Revenue Value by Region 20122017 3.1 Global GTO Thyristor Module Capacity and Market Share by Region 20122017 3.2 Global GTO Thyristor Module Production and Market Share by Region 20122017 3.3 Global GTO Thyristor Module Revenue Value and Market Share by Region 20122017

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