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1. D STATCOM
2. DC GENERATORS
3. METHODS OF STARTING OF SYNCHRONOUS MOTOR
4. USES OF DC GENERATORS
5. CHARACTERISTICS OF DC GENERATOR
6. BENEFITS OF UTILIZING FACTS DEVICES
7. WEAK BUS IDENTIFICATION
8. THYRISTOR CONTROLLED SERIES COMPENSATOR TCSC
9. STATIC SYNCHRONOUS COMPENSATOR STATCOM
10. ADVANTAGES AND DISADVANTAGES OF PHOTOVOLTAICS
11. OPERATION OF THREE PHASE THREE WINDINGS UNIFIED POWER QUALITY CONDITIONER
12. CLASSIFICATION OF HVDC LINKS
13. COMPONENTS OF HIGH VOLTAGE DC TRANSMISSION SYSTEM
14. APPLICATIONS OF HIGH VOLTAGE DC TRANSMISSION
15. INTERLINE POWER FLOW CONTROLLER IPFC
16. FACTS TECHNOLOGY
17. NEED FOR FACTS DEVICES
18. OPERATING MODES OF UNIFIED POWER FLOW CONTROLLER UPFC
19. UNIFIED POWER FLOW CONVERTER UPFC
20. PRINCIPLE OF OPERATION OF UNIFIED POWER FLOW CONTROLLER UPFC
21. BENEFITS OF VSC BASED TRANSMISSION SYSTEM
22. SYNCHRONOUS CONDENSER
23. ADVANTAGES OF THE THYRISTOR CONTROLLED SERIES CAPACITOR
24. POLARIZATION OF BACK EMF
25. PRIMARY SECONDARY AND TERTIARY FREQUENCY CONTROL
26. FREQUENCY CONTROL IN AN ISLANDING SYSTEM AND IN INTERCONNECTED SYSTEMS
27. COMPARISON BETWEEN STATCOM AND SVC
28. FACTORS LIMITING POWER FLOW THROUGH TRANSMISSION LINE
29. LINE LOADABILITY IN AC LINES
30. KIRCHHOFFS LAWS
31. ACTIVE CIRCUIT ELEMENTS (ENERGY SOURCES)
32. FUNCTIONS OF SCADA SYSTEMS
33. IMPORTANCE OF SWING BUS
34. CLASSIFICATION OF POWER SYSTEM BUSES
35. LIMITATIONS OF GAUSS SEIDEL METHOD FOR LOAD FLOW ANALYSIS
36. WHAT IS LOAD FLOW STUDIES
37. ELECTRICAL NETWORK THEOREMS
38. RECIPROCITY THEOREM
39. KIRCHHOFFS LAWS
40. CHARACTERISTICS OF MOVING COIL METER MOVEMENT
41. MEASUREMENT STANDARDS
42. NEED FOR ELECTRICAL ISOLATION IN SWITCH-MODE DC POWER SUPPLIES
43. DELETERIOUS EFFECTS OF HARMONIC DISTORTION AND A POOR POWER FACTOR
44. POWER ELECTRONIC CONVERTER TOPOLOGIES
45. CLASSIFICATIONS OF POWER SWITCHES
46. WHAT IS POWER ELECTRONICS
47. EFFECT OF FEEDBACK ON STABILITY
48. EFFECT OF FEEDBACK ON OVERALL GAIN
49. CLOSED LOOP CONTROL SYSTEMS
50. OPEN LOOP CONTROL SYSTEMS
51. ADVANTAGES OF CONTROL SYSTEMS
52. TYPES OF INDUCTORS
53. TYPES OF CAPACITORS
54. TYPES OF RESISTORS
55. SOURCES OF ELECTRICITY
56. NATURE OF POLE VOLTAGE WAVEFORMS OUTPUT BY PWM INVERTERS
57. PULSE WIDTH MODULATED INVERTER
58. THREE PHASE SYSTEMS
59. INSULATING SOLIDS
60. SKIN EFFECT
61. CLASSIFICATION OF POWER SYSTEM STABILITY
62. POWER SYSTEM STABILITY
63. WHY USE RENEWABLE ENERGY SOURCES?
64. WHY DISTRIBUTED GENERATION SYSTEM?
65. DISTRIBUTED GENERATION SYSTEMS
66. POWER MOSFET FEATURES
67. RAMP AND PEDESTAL UJT-SCR CONTROL CIRCUIT
68. OPERATING PRINCIPLE OF A GATE TURNOFF THYRISTOR GTO
69. THE PER UNIT SYSTEM
70. THE NEED FOR SWITCHING IN POWER ELECTRONIC CIRCUITS
71. POWER QUALITY SOLUTIONS
72. POWER QUALITY PROBLEMS IEEE
73. NULL METHOD OF MEASUREMENT
74. ANALOGUE INSTRUMENTS
75. GROUNDING
76. TYPES OF SUBSYNCHRONOUS RESONANCE INTERACTIONS
77. SUBSYNCHRONOUS RESONANCE
78. ADJUSTABLE SPEED AC DRIVES BEHAVIOR DUE TO VOLTAGE SAG
79. INFLUENCE OF SHORT INTERRUPTIONS ON EQUIPMENT
80. MONITORING OF SHORT INTERRUPTIONS
81. CAUSES OF LONG INTERRUPTIONS
82. SWITCHGEAR EQUIPMENTS
83. ESSENTIAL FEATURES OF SWITCHGEAR
84. SWITCHGEAR
85. INDUCTION REGULATORS
86. BOOSTER TRANSFORMER
87. AUTO TRANSFORMER TAP CHANGING
88. TAP CHANGING TRANSFORMERS
89. EXCITATION CONTROL
90. BROWN BOVERI REGULATOR
91. TIRRILL REGULATOR
92. VOLTAGE CONTROL
93. GROUND DETECTORS
94. BOOSTERS
95. PROTECTIVE DEVICES AND THEIR FUNCTIONS
96. TRANSFORMER EXTERNAL FAULTS
97. GENERATOR OVERHEATING PROTECTION
98. GENERATOR OVERVOLTAGE PROTECTION
99. GENERATOR BACKUP PROTECTION
100. GENERATOR ROTOR PROTECTION
101. OPERATION OF INDUCTION GENERATOR
102. GENERATOR COOLANT FAILURE PROTECTION
103. GENERATOR FIRE PROTECTION
104. GENERATOR VIBRATION PROTECTION
105. GENERATOR MOTORING PROTECTION
106. GENERATOR OVERSPEED PROTECTION
107. APPLICATIONS OF POWER ELECTRONICS
108. BASIC INSULATION LEVELS BIL
109. DIFFERENCES BETWEEN RELIABILITY AND SECURITY AND STABILITY
110. ACTIVE FILTERS OR ACTIVE POWER LINE CONDITIONERS
111. WHAT IS ELECTRICAL POWER DISTRIBUTION
112. VAR COMPENSATION
113. FACTS SYSTEM CONTROLLER
114. FLEXIBLE AC TRANSMISSION SYSTEM FACTS
115. CLASSIFICATION OF ELECTRICAL POWER SYSTEM BUSES
116. OBJECTIVES OF LOAD FLOW STUDY
117. FACTORS AFFECTING TRANSIENT STABILITY
118. THYRISTOR AS A CONTROLLED CONVERTERS
119. DIAC
120. CENTER TAP DIODE RECTIFIER
121. BIDIRECTIONAL TRIODE THYRISTOR TRIAC
122. GATE TURN OFF THYRISTOR GTO
123. SEMICONDUCTORS SWITCH THYRISTOR
124. SEMICONDUCTORS SWITCH DIODE
125. HARMONICS EFFECTS ON POWER SYSTEM COMPONENTS
126. AWARENESS OF POWER ELECTRONICS
127. RECTIFICATION
128. REACTORS
129. IMPORTANCE OF SHORT CIRCUIT CURRENTS
130. ANALYSIS OF SYMMETRICAL THREE PHASE SHORT CIRCUITS
131. ADVANTAGES OF PER UNIT SYSTEM
132. CLASSIFICATION OF POWER SYSTEM BUSES
133. POWER FLOW STUDIES AND ITS IMPORTANCE
134. SYNCHRONOUS MACHINE ROTOR TYPES
135. GRAPH THEORY TERMINOLOGY
136. CONSTRUCTION OF DC GENERATOR
137. SINGLE PHASE AND POLYPHASE SYSTEMS
138. PRIMARY AND BACKUP PROTECTION
139. THREE PHASE TRANSFORMER WINDING CONNECTIONS
140. POWER FACTOR
141. CONSTRUCTION AND OPERATION OF A SYNCHRONOUS MOTOR
142. TYPES OF SINGLE PHASE MOTORS
143. REVERSING DIRECTION OF ROTATION OF UNIVERSAL MOTOR
144. STANDARD SPLIT PHASE MOTORS
145. CAPACITOR TYPE SPLIT PHASE MOTORS
146. STARTERS FOR CAPACITOR TYPE SPLIT PHASE MOTORS
147. STARTER FOR TWO VALUE CAPACITOR TYPE SPLIT PHASE MOTORS
148. STARTER FOR A TWO VALUE CAPACITOR MOTOR USING A CURRENT RELAY AND AN AUTO TRANSFORMER
149. DYNAMIC BREAKING OF SPLIT PHASE MOTORS
150. PLUG REVERSING OF CAPACITOR START MOTORS
151. SPEED CONTROL OF SPLIT PHASE MOTORS
152. SPEED CONTROL OF PERMANENT SPLIT CAPACITOR MOTORS
153. SPEED CONTROL OF UNIVERSAL MOTOR
154. UNIVERSAL SERIES MOTORS
155. TYPES OF DC MOTORS AND THEIR APPLICATIONS
156. SEMI AUTOMATIC AND AUTOMATIC CONTROL OF MODERN MACHINERY
157. ADVANTAGES OF MAGNETIC CONTROL OF MACHINES
158. DISADVANTAGES OF MANUAL CONTROL OF MACHINES
159. SYNCHRONOUS MOTOR STARTING BY USING DAMPER (AMORTISSEUR) WINDING
160. SYNCHRONOUS MOTOR STARTING WITH AN EXTERNAL MOTOR
161. SYNCHRONOUS MOTOR STARTING BY REDUCING THE SUPPLY FREQUENCY
162. METHODS OF STARTING SYNCHRONOUS MOTOR
163. PROPERTIES OF THE TRANSFORMER OIL
164. INSULATING MEDIA
165. THERMAL AND VOLTAGE CONSIDERATIONS OF PRACTICAL TRANSFORMER
166. PERMANENT MAGNET DC MOTOR
167. THREE PHASE TRANSFORMER WINDING CONNECTIONS
168. GOALS OF SYSTEM DESIGN
169. FAULT PROTECTION DEVICES
170. THE NEED FOR GROUNDING
171. GROUNDING ELECTRODE
172. EARTH ELECTRODE
173. GROUNDING ON BARE ROCK
174. EFFECTS OF BLACKOUT
175. ADVANCED SYSTEM PROTECTION
176. CHOOSING A SPECIFIC SIZE OF GENERATOR
177. STANDBY GENERATOR TYPES
178. UPS SYSTEMS
179. STANDBY POWER SYSTEM NOISE
180. SEALED LEAD ACID BATTERY
181. GROUND SYSTEM MAINTENANCE
182. SWITCHGEAR MAINTENANCE
183. PLANT MAINTENANCE
184. PEAK ELECTRICAL POWER DEMAND
185. ELECTRICAL ENERGY USAGE
186. FIRST AID PROCEDURES AFTER GETTING SHOCK
187. ADVANTAGES OF SOLID AND LIQUID FUELS
188. THERMAL AND VOLTAGE CONSIDERATIONS OF TRANSFORMER
189. LOAD LOSSES IN TRANSFORMER
190. CATHODIC PROTECTION
191. WHAT IS RELAYING?
192. NAVIGATION AIDS
193. LIGHTING SYSTEMS FOR ILLUMINATION
194. INSPECTION AND TESTING OF EQUIPMENTS
195. REQUIREMENTS OF EQUIPMENTS DESIGN AND CONSTRUCTION
196. A TYPICAL FORMAT FOR A EQUIPMENTS SPECIFICATION
197. THE PURPOSE OF EQUIPMENTS SPECIFICATIONS
198. AREA CONTROL ERROR
199. FOSSIL FUEL POWER PLANTS
200. POWER GENERATING SYSTEMS
201. AUXILIARY DEVICES OF SYNCHRONOUS GENERATOR
202. DC CIRCUIT BREAKERS
203. AC VERSUS DC TRANSMISSION
204. HIGH VOLTAGE DC TRANSMISSION
205. VOLTAGE ANALYSIS
206. BREAKER SCHEMES
207. CONTROL AND SWITCHING SYSTEMS
208. SKIN EFFECT
209. ADVANTAGES OF INTERCONNECTED GRID SYSTEM
210. MECHANICAL DESIGN OF OVERHEAD TRANSMISSION LINES
211. REQUIREMENTS OF SATISFACTORY ELECTRIC SUPPLY
212. TYPES OF LOADS
213. TYPES OF CONNECTION OF WIND TURBINE TO GRID
214. DYNAMIC VOLTAGE RESTORER
215. METHOD OF RESTORING FOR VOLTAGE SAG
216. SOURCES AND EFFECT OF UNBALANCE IN THREE PHASE POWER SYSTEM
217. WHY SHOULD ONLY AN ONLINE UPS BE USED WITH A STANDBY GENERATOR?
218. HOW SHOULD SURGE PROTECTIVE DEVICES BE APPLIED?
219. WHERE DO POWER QUALITY ISSUES ORIGINATE?
220. SOURCES OF HARMONICS
221. POWER QUALITY TERMS
222. ENERGY MANAGEMENT
223. HYDROELECTRIC POWER GENERATION
224. PLANNING OF HYDROELECTRIC FACILITIES
225. SPECIAL CONSIDERATIONS AFFECTING PUMPED STORAGE PLANTS
226. FRAME OF A SYNCHRONOUS MACHINE
227. STATOR CORE ASSEMBLY OF A SYNCHRONOUS MACHINE
228. ROTOR OF A SYNCHRONOUS MACHINE
229. SYNCHRONOUS MOTOR AND CONDENSER STARTING
230. THERMAL GENERATING PLANTS
231. THERMAL PLANT AUXILIARY SYSTEM
232. THERMAL POWER PLANT SWITCHGEAR
233. SELECTION OF MOTORS
234. ELECTRICAL ANALYSIS
235. GENERATOR ASSOCIATED EQUIPMENT
236. TYPES OF MOTORS
237. ENERGY AND ITS TYPES
238. GRADES OF ENERGY
239. STORAGE OF ENERGY
240. CONVERSIONS OF ENERGIES
241. FORMS OF ENERGY
242. HIGH VOLTAGE TESTS ON INTERNAL INSULATION
243. SCOPE OF OPTIMIZATION PROBLEMS
244. GENERATION OF AC HIGH VOLTAGE BY CASCADED TRANSFORMERS
245. CASCADED TRANSFORMERS METHOD FOR GENERATING AC HIGH VOLTAGE
246. EFFECTS OF VOLTAGE SAGS ON LIGHTING LOADS
247. SURGE PROTECTION OF ROTATING MACHINE
248. EFFECT OF PRESSURE ON BREAKDOWN VOLTAGE IN VACUUM
249. CLUMP MECHANISM
250. SOLID DIELECTRICS USED IN POWER APPARATUS
251. GROUNDING AND BONDING
252. TOP 5 POWER QUALITY MYTHS
253. MAJOR FACTORS CONTRIBUTING TO POWER QUALITY ISSUES
254. POWER QUALITY
255. POWER QUALITY
256. POWER QUALITY MEASURABLE QUANTITIES
257. BATTERY FAQ
258. MAINTENANCE OF BATTERIES FOR EXTENDING ITS LIFE
259. BATTERY ARRANGEMENT IN UPS
260. FACTORS AFFECTING BATTERY PERFORMANCE
261. HYDROELECTRIC POWER STATION
262. EQUIPMENT OF STEAM POWER STATION
263. CHOICE OF SITE FOR STEAM POWER STATIONS
264. SCHEMATIC ARRANGEMENT OF STEAM POWER STATION
265. STEAM POWER STATION OR THERMAL POWER STATION
266. GENERATING STATIONS
267. DISTRIBUTION SYSTEM
268. TYPES OF CABLE FAULTS
269. CONVENTIONAL SOURCES OF ELECTRICAL ENERGY
270. ROLE OF INSULATORS 
271. TYPES OF INSULATORS 
272. ABSOLUTE AND SECONDARY INSTRUMENTS 
273. BATTERIES FOR AIRCRAFT AND SUBMARINES 
274. SECONDARY HYBRID CELLS 
275. MAIN OPERATED BATTERY CHARGERS 
276. MAINTENANCE OF LEAD ACID CELLS 
277. STRUCTURE OF PLANTE PLATES 
278. STRUCTURE OF FAURE PLATES 
279. INTERNAL RESISTANCE AND CAPACITY OF A CELL 
280. APPLICATIONS OF LEAD ACID BATTERIES 
281. PARTS OF A LEAD ACID BATTERY 
282. POWER ELECTRONICS FOR CONTROL AND GRID INTEGRATION OF WIND TURBINE GENERATORS 
283. PRIMARY AND SECONDARY BATTERIES 
284. WEBER AND EWING MOLECULAR THEORY 
285. CAPACITOR 
286. BREAKDOWN VOLTAGE AND DIELECTRIC STRENGTH 
287. STATIC ELECTRICITY 
288. CORONA AND ITS FORMATION 
289. FACTORS AFFECTING CORONA 
290. ADVANTAGES AND DISADVANTAGES OF CORONA 
291. METHODS OF REDUCING CORONA EFFECT 
292. SUSPENSION TYPE INSULATORS AND ITS ADVANTAGES 
293. LISSAJOUS FIGURES 
294. APPLICATIONS OF CATHODE RAY OSCILLOSCOPE 
295. CATHODE RAY TUBE CRT 
296. CATHODE RAY OSCILLOSCOPE CRO 
297. DC FET VOLT METER 
298. ESSENTIALS OF AN ELECTRONIC INSTRUMENT 
299. ELECTRONIC VERSUS ELECTRICAL INSTRUMENTS 
300. SELECTIVE RESONANCE DUE TO HARMONICS 
301. NEUTRAL GROUNDING AND ITS ADVANTAGES 
302. GENERATION OF ELECTRICAL ENERGY 
303. IMPORTANCE OF ELECTRICAL ENERGY 
304. REQUIREMENTS OF SATISFACTORY ELECTRIC SUPPLY 
305. EFFECTS OF VARIABLE LOAD ON POWER STATION 
306. EVALUATING SYSTEM HARMONICS 
307. EFFECTS AND NEGATIVE CONSEQUENCES OF HARMONICS 
308. SOURCES OF HARMONICS 
309. ROTATING MACHINE AS A SOURCE OF HARMONICS 
310. MAGNETIZATION NONLINEARITIES OF TRANSFORMERS AS A SOURCE OF HARMONICS 
311. EFFECTS OF HARMONICS ON POWER SYSTEM COMPONENTS 
312. EFFECTS OF HARMONICS 
313. SOME NEGATIVE EFFECTS OF HARMONICS 
314. CAUSES OF POWER SYSTEM TRANSIENTS 
315. EFFECTS OF HARMONICS 
316. EFFECTS OF HARMONICS ON CONSUMER EQUIPMENT 
317. EFFECTS OF HARMONICS ON CAPACITOR BANKS 
318. HARMONIC INTERFERENCE WITH POWER SYSTEM PROTECTION 
319. EFFECTS OF HARMONICS ON MEASURING INSTRUMENTS 
320. EFFECTS OF HARMONICS ON TRANSMISSION SYSTEM 
321. EFFECTS OF HARMONICS ON TRANSFORMERS 
322. EFFECTS OF HARMONICS ON ROTATING MACHINES
323. ADVANTAGES AND DISADVANTAGES OF STAR DELTA STARTER 
324. ADVANTAGES AND DISADVANTAGES OF AUTO TRANSFORMER STARTER 
325. LIMITATION OF CURRENT OF THREE-PHASE MOTOR 
326. SOURCES OF HARMONICS 
327. PREVENTION AND CORRECTION OF VOLTAGE SAG 
328. IMPROVEMENT OF QUALITY OF POWER BY PROPER POWER QUALITY MANAGEMENT 
329. VOLTAGE IMBALANCE ITS CAUSES AND ITS EFFECTS ON POWER SYSTEM 
330. DIFFERENCE BETWEEN INDUCTION MOTOR AND SYNCHRONOUS MOTOR 
331. ONE PIECE MOTOR DRIVE COMBINATIONS 
332. ADJUSTABLE SPEED CONTROL OF DC DRIVES 
333. ROUTINE MAINTENANCE OF ELECTRICAL DRIVES 
334. AC DRIVE APPLICATION FACTORS 
335. MOTOR CONSIDERATIONS WITH AC DRIVES 
336. ADJUSTABLE SPEED DRIVES 
337. MAGNETIC FIELD AND MAGNETIC FLUX 
338. ACTUATORS 
339. SOLENOIDS 
340. 5 PIN RELAY 
341. RELAYS 
342. COMMUTATION 
343. FLEMINGS LEFT HAND RULE 
344. ELECTROMAGNETIC FORCE 
345. TESTING OF THREE PHASE INDUCTION MOTOR 
346. ELECTRIC MOTORS 
347. SWITCHED RELUCTANCE MOTOR 
348. AC INDUCTION MOTOR 
349. PERMANENT MAGNET SYNCHRONOUS MOTOR 
350. BRUSHLESS DC MOTOR 
351. DIGITAL MOTOR CONTROL 
352. MOTOR CONTROL APPLICATION REQUIREMENTS 
353. WEATHER PROTECTED MOTORS 
354. SERVICE FACTOR OF MOTOR 
355. BRAKE MOTOR AND ITS APPLICATION 
356. CHARACTERISTICS OF WEG MOTORS 
357. DIRECTION OF ROTATION OF THREE-PHASE INDUCTION MOTORS 
358. INSULATION MATERIALS AND INSULATION SYSTEMS 
359. ELECTRIC MOTORS 
360. ADVANTAGES OF HYBRID SYSTEM OVER SEPARATE WIND AND SOLAR GENERATING FACILITIES 
361. SOLAR CROP DRYERS 
362. SOLAR STILLS 
363. SOLAR THERMAL POWER 
364. PHOTOVOLTAICS 
365. ADVANTAGES AND DISADVANTAGES OF SOLAR ENERGY 
366. SOLAR ENERGY 
367. MAINTENANCE RESALE AND RECYCLING OF SOLAR SYSTEM 
368. SELECTING THE RIGHT SIZE OF SOLAR SYSTEM FOR HOME 
369. CORRECT DIRECTION/ PLACE OF SOLAR PANEL 
370. THE COMPONENTS OF A GRID TIED PV SYSTEM 
371. THE HISTORY OF PHOTOVOLTAIC TECHNOLOGY 
372. WHY INSTALL A SOLAR ELECTRIC SYSTEM FOR HOME OR BUSINESS 
373. THERMOSOLAR AND THERMOELECTRIC ENERGY 
374. APPLICATION OF PHOTOVOLATIC 
375. PHOTOVOLTAIC SYSTEMS 
376. SOLAR ENERGY 
377. FUTURE OF RENEWABLE ENERGY 
378. POWER FROM THE SUN 
379. IMPLEMENTING THE TT EARTHING SYSTEM 
380. MONITORING OF INSULATION AND HELP WITH FIRST FAULT LOCATION 
381. IMPLEMENTING THE IT EARTHING SYSTEM AND OPERATION 
382. DIFFERENT TYPES OF EARTHING SYSTEMS 
383. EARTHING SYSTEMS 
384. SOLIDLY GROUNDED NEUTRAL SYSTEMS 
385. UNGROUNDED NEUTRAL SYSTEMS 
386. IMPORTANCE AND METHODS OF NEUTRAL GROUNDING 
387. CLASSIFICATION OF ELECTRIC MACHINES 
388. OVERVIEW OF RENEWABLE ENERGY 
389. MOTOR STARTERS 
390. VARIOUS TYPES OF MOUNTS OF MOTORS 
391. BRAKE MOTORS 
392. MOTORS FOR PRECISE MOTION CONTROL 
393. POLYPHASE AC MOTORS 
394. SINGLE PHASE AC MOTORS 
395. ELECTRIC MOTOR PRINCIPLES
396. WHAT IS ENGINEERING AND WHAT DO ENGINEERS HAVE TO DO? 
397. COMMON TRAITS OF GOOD ENGINEERS 
398. CLASSIFICATION OF POWER SYSTEM STABILITY 
399. DETERMINIST V/S PROBABILISTIC 
400. THE BASICS OF GENETIC ALGORITHMS 
401. ECONOMICAL GENERATION OPERATION 
402. OPERATOR TRAINING SIMULATOR 
403. POWER SYSTEM SECURITY CONTROL 
404. ENERGY MANAGEMENT 
405. ELECTRIC LOAD MANAGEMENT 
406. AUTOMATIC GENERATION CONTROL 
407. METHODS OF ANALYSIS OF TRANSIENT STABILITY 
408. FACTORS INFLUENCING TRANSIENT STABILITY 
409. TRANSIENT STABILITY CONSIDERATIONS IN SYSTEM DESIGN 
410. TRANSIENT STABILITY CONSIDERATIONS IN SYSTEM OPERATION 
411. CONSIDERATION OF STABILITY IN SYSTEM DESIGN AND OPERATION 
412. POWER SYSTEM STABILITY 
413. NATURE OF POWER SYSTEM OSCILLATIONS 
414. MITIGATION OF VOLTAGE STABILITY PROBLEMS 
415. REASONS FOR GROUNDING 
416. TRADITIONAL SHUNT COMPENSATION 
417. PRINCIPLES OF SHUNT COMPENSATION 
418. SHUNT COMPENSATORS 
419. HYBRID ACTIVE PASSIVE FILTERS 
420. HARMONIC PRODUCING IDENTIFIED AND UNIDENTIFIED LOADS 
421. POWER TRANSFORMERS CONNECTED DIRECTLY TO GENERATORS 
422. POWER TRANSFORMER ACCESSORIES 
423. INRUSH CURRENT IN TRANSFORMER 
424. TRANSFORMER TAPS-TURNS RATIO ADJUSTMENT 
425. THERMAL AND VOLTAGE CONSIDERATIONS OF TRANSFORMER 
426. LOAD LOSSES IN TRANSFORMER 
427. TYPES OF COMPUTER MEMORY AND ITS SELECTION 
428. NiMH BATTERY 
429. LI-POLYMER BATTERY 
430. BASICS OF BATTERY 
431. ELECTRIC VEHICLE OPERATION 
432. TYPE OF ENERGY AUDIT 
433. NEED FOR ENERGY AUDIT 
434. LOSSES IN TRANSFORMER 
435. ANALOGUE INSTRUMENTS 
436. HIGH EFFICIENCY MOTOR PROTECTION
437. CAUSES OF ELECTRICAL POWER OUTAGES 
438. BASIC CONCEPTS OF WIND POWER SYSTEMS 
439. COSTS OF ELECTRICAL POWER OUTAGES IN UNITED STATES 
440. SMART GRID AND MICRO GRID 
441. MEASUREMENT SYSTEMS 
442. ELECTRICAL POWER BALANCING AUTHORITIES AND ITS RESPONSIBILITIES 
443. PLANNING AND OPERATING A RELIABLE AND ADEQUATE POWER SYSTEM 
444. WAYS TO MEASURE ELECTRICAL POWER SYSTEM RELIABILITY 
445. ELECTRICAL ENERGY STORAGE CONCEPTS AND TECHNOLOGIES 
446. BENEFITS OF ENERGY STORAGE TO TRANSMISSION AND DISTRIBUTION 
447. HVDC 
448. SUBSTATION EQUIPMENT 
449. SUBSTATIONS 
450. PRIMARY COMPONENTS OF AN OVERHEAD TRANSMISSION LINE 
451. AUTOMATIC GENERATION CONTROLS (AGC) 
452. YAW CONTROL AND SPEED CONTROL OF WIND TURBINE 
453. EFFECTS OF SHORT CIRCUITS ON TRANSFORMERS 
454. NEW VERSUS EXISTING SUBSTATIONS 
455. WIND POWER SYSTEM DESIGN FEATURES 
456. WIND POWER SYSTEM COMPONENTS 
457. SOCIETAL BENEFITS OF ELECTRICITY 
458. DIFFERENCE BETWEEN GRID STATION AND SUB STATION 
459. ELECTRICAL MEASUREMENT TERMINOLOGIES 
460. CONTROL OF FIXED SHUNT REACTORS 
461. APPLICATIONS OF VARIABLE SHUNT REACTOR VSR 
462. VARIABLE SHUNT REACTOR VSR 
463. FIXED SHUNT REACTOR 
464. SHUNT REACTORS 
465. VOLTAGE REGULATING DEVICES 
466. VOLTAGE STABILITY 
467. REACTIVE POWER 
468. PER UNIT QUANTITIES 
469. SEQUENCE IMPEDANCES OF NETWORK COMPONENTS 
470. ASSUMPTIONS COMMONLY MADE IN THREE PHASE FAULT STUDIES 
471. SYMMETRICAL COMPONENT ANALYSIS 
472. FAULT CURRENTS IN SYNCHRONOUS MACHINES 
473. POWER SYSTEM FAULT ANALYSIS 
474. CURRENT LIMITING REACTOR 
475. SHORT CIRCUIT CURRENT LIMITATION TECHNIQUES
476. SYNCHRONOUS GENERATORS PROTECTION AGAINST ACCIDENTAL ENERGIZATION 
477. SYNCHRONOUS GENERATOR TRIPPING PRINCIPLES 
478. PROTECTION OF SYNCHRONOUS GENERATORS 
479. FUTURE IMPROVEMENTS IN CONTROL AND PROTECTION 
480. SPECIAL PROTECTION SCHEMES 
481. VOLTAGE STABILITY AND UNDERVOLTAGE LOAD SHEDDING 
482. OVERLOAD AND UNDERFREQUENCY LOAD SHEDDING 
483. TRANSIENT STABILITY AND OUT-OF-STEP PROTECTION 
484. PILOT PROTECTION 
485. THE NATURE OF RELAYING 
486. TRANSMISSION LINE PROTECTION 
487. IMPACT OF SYNCHRONOUS GENERATOR DIGITAL MULTIFUNCTION RELAYS 
488. TYPES OF TRANSFORMER FAULTS 
489. SHUNT REACTOR APPLICATIONS 
490. SERIES AND SHUNT CAPACITOR BANK APPLICATIONS 
491. TRANSMISSION LINE SWITCHING OPERATIONS 
492. SWITCHING SURGES 
493. OVERVOLTAGES CAUSED BY INDIRECT LIGHTNING STROKES 
494. EFFECTS OF VERY FAST TRANSIENTS ON EQUIPMENTS 
495. CURRENT ACTUATED RELAYS 
496. PILOT PROTECTION
497. STANDBY CAPACITY OF PLAIN CABLE FEEDERS AND TRANSFORMER FEEDERS 
498. METAL OXIDE SEMICONDUCTOR FIELD EFFECT TRANSISTOR (MOSFET) 
499. SPECIAL FEATURES OF THE CURRENT LIMITING CIRCUIT BREAKER 
500. METAL OXIDE VARISTOR 
501. SHUNT REACTIVE POWER COMPENSATION 
502. NEED FOR REACTIVE POWER COMPENSATION 
503. TECHNICAL COMPLEXITIES AND RISKS OF GRID INTERCONNECTIONS 
504. GENERAL POTENTIAL BENEFITS OF GRID INTERCONNECTIONS 
505. REACTIVE POWER AND ITS SOURCES 
506. BEHAVIOUR OF SHUNT REACTOR DURING EXTERNAL AND INTERNAL FAULTS 
507. TYPICAL CONTROL SCHEMES OF SHUNT REACTOR 
508. MECHANICAL FAULT DETECTION OF SHUNT REACTOR 
509. TURN TO TURN PROTECTION SCHEMES OF SHUNT REACTOR 
510. OPERATING CHARACTERISTICS OF SHUNT REACTOR 
511. FOSSIL FUEL POWER PLANTS 
512. STEAM TURBINE POWER PLANTS 
513. REAL TIME ELECTRICAL POWER GENERATION 
514. TYPES OF ELECTRIC LOADS 
515. CLASSIFICATION OF POWER SYSTEM STABILITY 
516. TRANSIENT STABILITY CONSIDERATIONS IN SYSTEM OPERATION 
517. TRANSIENT STABILITY CONSIDERATIONS IN SYSTEM DESIGN 
518. FACTORS INFLUENCING TRANSIENT STABILITY 
519. METHODS OF ANALYSIS OF TRANSIENT STABILITY 
520. POWER SYSTEM STABILITY 
521. OPERATION AND MAINTENANCE OF FUEL CELL POWER PLANTS 
522. NEED OF BACKUP POWER IN TELECOMMUNICATIONS INDUSTRIES 
523. FUEL INJECTION SYSTEM OF DIESEL ENGINE 
524. ESSENTIAL ELEMENTS OF DIESEL POWER PLANT 
525. DIESEL POWER STATION 
526. ELECTRONIC FUSES 
527. MAGNETIC HYDRAULIC CIRCUIT BREAKER 
528. CIRCUIT BREAKERS 
529. MELTING FUSES 
530. RELAY DESIGNS 
531. PILOT PROTECTION 
532. DISTANCE RELAYS 
533. INSTANTANEOUS OVERCURRENT RELAYS 
534. INVERSE TIME DELAY OVERCURRENT RELAYS 
535. FUSES 
536. PRIMARY AND BACKUP PROTECTION SYSTEM 
537. SPEED OF RELAY 
538. TYPES OF TRANSFORMER FAULTS 
539. SAFETY IN POWER PLANTS 
540. COMMON HAZARDS IN POWER PLANTS 
541. TYING HYDROPOWER TO OTHER ENERGY FORMS 
542. PEAKING WITH HYDROPOWER 
543. UTILIZING ELECTRIC ENERGY FROM TIDAL POWER PLANTS 
544. GENERAL PRECAUTIONS IN ELECTRICAL MEASUREMENTS 
545. ELECTRIC UTILITY RESOURCES AND ORGANIZATION 
546. DISTRIBUTION 
547. TRANSMISSION OF ELECTRICAL POWER 
548. ONE LINE DIAGRAM OF ELECTRICAL POWER SYSTEM 
549. ELECTRIC POWER GENERATION 
550. ELECTRIC UTILITY FUNCTIONS AND SYSTEMS 
551. DIODE 
552. MICROCONTROLLER VERSUS MICROPROCESSOR 
553. APPLICATIONS OF MICROCONTROLLER
554. WHAT IS ELECTRICAL ENGINEERING 
555. ELECTRICAL ENERGY CONSUMPTION 
556. IDEAL AND REAL WORLD CIRCUIT ELEMENTS 
557. DISCRETE TIME SIGNALS 
558. COMMUNICATING INFORMATION WITH SIGNALS 
559. ELECTRIC POWER UTILIZATION IN MOTORS 
560. ELECTRIC LOAD RELATED ISSUES 
561. MULTIFUNCTION POWER METER 
562. POWER DISTRIBUTION BY SCADA HISTORY 
563. IMPLEMENTATION OF DISTRIBUTION AUTOMATION 
564. ELECTRIC LOAD MODELING CONCEPTS AND APPROACHES 
565. ELECTRIC LOAD CLASSIFICATION 
566. INSTRUMENT TRANSFORMERS 
567. SINGLE STATOR ELECTROMECHANICAL METER
568. APPLICATION OF DIFFERENTIAL PROTECTION 
569. DIFFERENTIAL PROTECTION OF POWER TRANSFORMER 
570. TRANSFORMER NAMEPLATE RATING 
571. COOLING METHODS OF POWER TRANSFORMER 
572. TYPES OF POWER TRANSFORMER FAILURES 
573. WORKING PRINCIPLE OF POWER TRANSFORMER 
574. MAIN CONSTRUCTIONAL PARTS OF POWER TRANSFORMER 
575. DIFFERENTIAL PROTECTION OF A POWER TRANSFORMER 
576. TYPES OF FAULTS ON POWER TRANSFORMER 
577. POWER TRANSFORMER AND ITS IMPORTANCE
578. CLASSIFICATION OF ENERGY 
579. WORKING OF PLASMA CHAMBERS 
580. BREAKDOWN OF SOLID INSULATING MATERIALS 
581. BREAKDOWN OF COMPOSITE INSULATION 
582. ELECTRO CHEMICAL BREAKDOWN 
583. SURFACE BREAKDOWN 
584. PURIFICATION OF A LIQUID FOR TESTING 
585. BREAKDOWN OF COMMERCIAL LIQUIDS 
586. TESTING VOLTAGES 
587. VENTILATION OR COOLING OF AN ALTERNATOR 
588. SYNCHRONOUS GENERATORS 
589. CRITICAL RESISTANCE FOR A SERIES GENERATOR 
590. CRITICAL FIELD RESISTANCE FOR A SHUNT GENERATOR 
591. DC GENERATOR CHARACTERISTICS 
592. PARALLEL OPERATION OF DC MOTORS 
593. SERIES OPERATION OF DC MOTORS 
594. THE FIRST LAW OF ELECTROSTATICS 
595. THERMIONIC EMISSION 
596. PHOTOELECTRIC EFFECT 
597. THERMOELECTRICITY 
598. PIEZOELECTRIC EFFECT 
599. MAGNETIC INDUCTION 
600. STATIC ELECTRICITY 
601. ELECTROCHEMISTRY 
602. METHODS OF PRODUCING ELECTRICITY 
603. ELECTRIC CURRENT 
604. VOLTAGE 
605. BOOLEAN ALGEBRA 
606. POWER ENGINEERING 
607. COMPUTER NETWORKS AND THE INTERNET 
608. RADIO AND TELEVISION 
609. TELEGRAPH AND TELEPHONE 
610. TELECOMMUNICATION 
611. ELECTRIC POWER TRANSMISSION 
612. KIRCHHOFF’S CURRENT LAW 
613. ELECTRICAL ENGINEERING AND A SUCCESSFUL CAREER 
614. CAUSES OF SHORT CIRCUITS 
615. DIFFERENT TYPES OF SHORT CIRCUITS 
616. SHORT CIRCUIT CHARACTERISTICS 
617. MOTORING OPERATION OF A DC MACHINE 
618. HETEROPOLAR DC GENERATORS 
619. HOMOPOLAR MACHINES 
620. PRINCIPLES OF DC MACHINES 
621. GOVERNOR SYSTEM USED IN HYDROELECTRIC POWER PLANT 
622. EXCITATION SYSTEM USED IN HYDROELECTRIC POWER PLANT 
623. GENERATOR TERMINAL EQUIPMENT USED IN HYDROELECTRIC POWER PLANT 
624. POWER LOSS IN SERVICE MAINS 
625. POWER QUALITY ISSUES WITH RENEWABLE ENERGY 
626. HYBRID SYSTEM AND ITS MERITS 
627. HARMONICS AND ITS CAUSES 
628. RENEWABLE ENERGY SOURCES 
629. POWER QUALITY 
630. ESSENTIAL ELEMENTS OF A CABLE CONDITION MONITORING PROGRAM 
631. OPTIMUM LOADING OF HYBRID SUPPLY SYSTEM FOR RESIDENTIAL CUSTOMER 
632. WIND TURBINES 
633. SWITCHGEAR AND MOTOR CONTROL CENTRES 
634. DC UPS 
635. UNINTERRUPTIBLE POWER SUPPLIES 
636. CONSTRUCTION OF DC MOTOR 
637. PROTECTION SYSTEMS OF HYDROELECTRIC POWER PLANT 
638. HYDROELECTRIC POWER PLANT AUXILIARY EQUIPMENT 
639. CONTROL SYSTEMS USED IN HYDROELECTRIC POWER PLANT 
640. GENERATOR SWITCHGEAR USED IN HYDROELECTRIC POWER PLANT 
641. GENERATOR STEP UP TRANSFORMER 
642. FLOW CONTROL EQUIPMENT USED IN HYDROELECTRIC POWER PLANT 
643. GENERATOR USED IN HYDROELECTRIC POWER PLANT 
644. TURBINE USED IN HYDROELECTRIC POWER PLANT 
645. FLOW CONTROL EQUIPMENT USED IN HYDROELECTRIC POWER PLANT 
646. HYDROELECTRIC PLANT FEATURES 
647. METHODS OF STARTING INDUCTION MOTORS 
648. OPERATING PRINCIPLES OF T RANSFORMERS 
649. CRITICAL TIMES FOR INDUCTION MOTORS 
650. PLANNING OF HYDROELECTRIC FACILITIES 
651. HYDROELECTRIC POWER GENERATION 
652. ELECTRICAL ENGINEERING PROGRAM EDUCATIONAL OBJECTIVES 
653. SELF INDUCTANCE 
654. MUTUAL INDUCTANCE 
655. EFFICIENCY OF A TRANSFORMER 
656. PRINCIPLE OF OPERATION OF THREE PHASE INDUCTION MOTOR 
657. MAIN AND PILOT EXCITER 
658. PHSOR DIAGRAM OF A TWO AXIS SALIENT POLE GENERATOR 
659. OPERATION OF GENERATOR 
660. SUB TRANSIENT STATE ARMATURE REACTION 
661. TRANSIENT STATE ARMATURE REACTION 
662. STEADY STATE ARMATURE REACTION 
663. GENERATOR OPERATION 
664. COMMON ASPECTS BETWEEN GENERATORS AND MOTORS 
665. GOVERNING SYSTEMS FOR GAS TURBINES 
666. STARTING METHODS FOR GAS TURBINES 
667. FACTORS TO BE CONSIDERED AT THE DESIGN STAGE OF A POWER PLANT 
668. FUEL FOR GAS TURBINES 
669. SINGLE AND TWO SHAFT GAS TURBINES 
670. COORDINATION WITH OTHER DISCIPLINES 
671. INDIVIDUAL SWITCHBOARDS AND MOTOR CONTROL CENTRES 
672. DEVELOPMENT OF SINGLE-LINE DIAGRAMS 
673. RATING OF MOTORS IN RELATION TO THEIR DRIVEN MACHINES 
674. MODERN POWER SYSTEM 
675. NUCLEAR POWER PLANTS 
676. HYDEL POWER PLANTS 
677. THERMAL POWER PLANT 
678. AC GENERATOR 
679. STANDBY CAPACITY OF PLAIN CABLE FEEDERS AND TRANSFORMER FEEDERS 
680. HEAVY INDUSTRIAL GAS TURBINES 
681. LIGHT INDUSTRIAL GAS TURBINES 
682. AERO DERIVATIVE GAS TURBINES 
683. CLASSIFICATION OF GAS TURBINE ENGINES 
684. PRELIMINARY SINGLE-LINE DIAGRAMS 
685. BATTERY CAPACITY