iPATE (Industrial Proficiency Aptitude Test for Engineers ) Conducted by Confederation of Indian Industries (CII). It is a Gateway to enter in the Corporate World and it is One Stop Solution for Indian Industry to recruit Top Technical Talent on PAN India. More than 9000 MNCs recruiting on basis of iPATE.

B.E./B.Tech/B.Arch/M.E./M.Tech passout or final year candidates are eligible for this iPATE exam with having No Age Limit eligibility and unlimited no. of Attempts.

This exam consists of 3 sections having total 100 Questions of 100 Marks: Cognitive Abilities, Professional Abilities & Technical Abilities.

Online registrations start from 1st January 2020 to 31st March 2020 and Online exam dates are 4th, 5th, 11th & 12th July 2020. Online live classes for iPATE starts from 25th March 2020. Do your registrations as early as possible and join online live classes of 600+ hours. 40 % discount on fees for early-bird registrations (First fifty students).

Click here to download Tech. Syllabus

So don’t miss the live classes and avail initial **40% discount.**

**Coupon Code - IPATEEE40**

1 # Basic Maths |
01:26:07 |

2 # Basic Maths & Electrostatics |
01:34:19 |

3 # Electrostatics |
02:22:27 |

4 # Electrostatics & Magnetostatics |
01:31:08 |

5 # Magnetostatics |
01:36:43 |

6 # Maxwell equation |
02:20:20 |

1 # SYLLABUS AND INTRODUCTION |
00:08:48 |

2 # SIGNAL DEFINITION AND CLASSIFICATION |
00:20:48 |

3 # DIFFERENT TYPE OF SIGNAL |
00:34:24 |

4 # DIFFERENT TYPE OF SIGNAL |
00:17:07 |

5 # DIFFERENT TYPE OF SIGNAL AND OPERATION OF SIGNAL |
00:25:45 |

6 # OPERATION OF SIGNAL |
00:03:53 |

7 # OPERATION OF SIGNAL |
00:31:23 |

8 # OPERATION OF SIGNAL |
00:28:36 |

9 # OPERATION OF SIGNAL |
00:02:29 |

10 # FOURIER TRANSFORM |
00:04:37 |

11 # FOURIER TRANSFORM |
00:44:53 |

12 # FOURIER TRANSFORM |
00:19:37 |

13 # FOURIER TRANSFORM |
00:28:59 |

14 # FOURIER TRANSFORM |
00:24:42 |

15 # FOURIER TRANSFORM |
00:06:20 |

16 # FOURIER TRANSFORM |
00:07:55 |

17 # FOURIER TRANSFORM |
00:48:34 |

18 # FOURIER TRANSFORM |
00:50:52 |

19 # LAPLACE TRANSFORM |
00:39:57 |

20 # LAPLACE TRANSFORM |
00:21:01 |

21 # LAPLACE TRANSFORM |
00:30:50 |

22 # LAPLACE TRANSFORM |
00:20:01 |

23 # Z TRANSFORM |
00:14:02 |

24 # Z TRANSFORM |
00:10:35 |

25 # Z TRANSFORM |
00:22:29 |

26 # Z TRANSFORM |
00:30:03 |

27 # SAMPLING THEOREM |
00:37:47 |

28 # DTFT |
00:13:54 |

29 # DFT |
00:05:41 |

30 # DIGITAL FILTER |
00:08:15 |

31 # DIGITAL FILTER |
00:09:38 |

32 # DIFFERNTIATION AND INTEGRATION |
00:32:40 |

33 # DISCRETE TIME SYSTEM |
00:31:11 |

34 # CLASSIFICATION OF SIGNAL |
00:55:10 |

35 # CLASSIFICATION OF SIGNAL |
00:56:00 |

36 # CLASSIFICATION OF SIGNAL |
00:15:45 |

37 # CLASSIFICATION OF SIGNAL |
00:19:40 |

38 # BASIC SYSTEM PROPERTIES |
00:23:38 |

39 # BASIC SYSTEM PROPERTIES |
00:38:16 |

40 # BASIC SYSTEM PROPERTIES |
00:14:42 |

41 # BASIC SYSTEM PROPERTIES |
00:08:04 |

42 # BASIC SYSTEM PROPERTIES |
00:13:23 |

43 # BASIC SYSTEM PROPERTIES |
00:26:14 |

44 # CONVOLUTION |
00:41:09 |

45 # CONVOLUTION |
00:51:43 |

46 # BASIC SYSTEM PROPERTIES |
00:30:13 |

47 # FOURIER SERIES |
00:46:26 |

48 # FOURIER SERIES |
00:18:13 |

49 # FOURIER SERIES |
00:15:16 |

50 # FOURIER SERIES |
00:45:01 |

51 # FOURIER SERIES |
00:36:19 |

52 # FOURIER SERIES AND FOURIER TRANSFORM |
00:08:08 |

53 # FOURIER SERIES AND FOURIER TRANSFORM |
00:44:31 |

1 # Power System basics and Power Factor correction |
03:32:42 |

2 # Transmission line Parameters |
03:07:12 |

3 # Modelling of short and medium transmission line |
02:02:54 |

4 # Modelling of long transmission line and propagation constant |
02:44:25 |

5 # Surge impedance, Equivalent T and Pie- model |
01:40:26 |

6 # Performance of transmission line |
03:07:58 |

7 # Performance of transmission line and corona |
03:35:16 |

8 # Underground cable transmission |
03:07:49 |

9 # Distribution System |
01:07:41 |

10 # Power Generation Concept |
02:52:11 |

11 # Load flow analysis |
02:52:31 |

12 # Guass- Seidal method |
02:08:48 |

13 # Newton- Raphson Method |
03:03:31 |

14 # Symmetrical fault analysis |
03:10:10 |

15 # Symmetrical fault calculation |
02:32:04 |

16 # Impedance matrix building Algorithm |
01:36:20 |

17 # Symmetrical Components |
01:59:18 |

18 # Symmetrical Components |
03:39:44 |

19 # Unsymmetrical Fault analysis |
01:08:31 |

20 # Unsymmetrical Fault analysis |
03:07:28 |

21 # Power system stability |
02:31:18 |

22 # Power system stability |
03:00:41 |

23 # Power System stability |
03:15:55 |

24 # Speed Governing System |
01:55:13 |

25 # Circuit Breaker |
03:19:15 |

26 # Circuit Breaker |
01:26:40 |

27 # Power system Protection |
01:40:32 |

28 # Power system Protection |
02:12:54 |

29 # Generator Protection |
02:25:18 |

30 # Transformer Protection |
01:15:57 |

1 # BASICS OF CONTROL, TRANSFER FUNCTION,BLOCK DIAGRAM |
02:42:33 |

2 # BLOCK DIAGRAM, SIGNAL FLOW GRAPH |
02:28:43 |

3 # TIME RESPONSE ANALYSIS(1st order and 2nd order) |
02:26:24 |

4 # TIME RESPONSE ANALYSIS AND STEADY STATE ERROR |
02:51:33 |

5 # STEADY STATE ERROR AND RH CRITERIA |
02:34:35 |

6 # RELATIVE STABILITY AND ROOT LOCUS |
02:58:51 |

7 # ROOT LOCUS |
02:53:19 |

8 # FREQUENCY RESPONSE ANALYSIS, BODE PLOT |
03:44:42 |

9 # BODE PLOT |
01:25:41 |

10 # POLAR PLOT |
02:22:57 |

11 # NYQUIST PLOT |
01:46:34 |

12 # NYQUIST PLOT AND STATE VARIABLE |
02:11:11 |

1 # Torque In Instrument |
00:26:21 |

2 # Analog Instrument |
00:51:53 |

3 # Analog Instrument |
01:04:20 |

4 # Analog Instrument |
00:34:13 |

5 # Analog Instrument |
00:06:04 |

6 # Measurement Of Resistance |
01:28:08 |

7 # Measurement Of Resistance |
00:30:33 |

8 # Measurement Of Resistance |
00:01:19 |

9 # Bridge |
00:14:21 |

10 # AC Bridge |
00:58:21 |

11 # AC Bridge |
00:06:49 |

12 # Transducers |
00:11:22 |

13 # Transducer |
00:11:38 |

14 # Power Measurement |
00:53:34 |

15 # Power Measurement |
00:22:36 |

16 # Power Measurement |
00:08:02 |

17 # Energy Measurement |
01:18:45 |

18 # Cathode Ray Oscilloscope |
00:55:06 |

19 # Digital Voltmeter |
00:13:40 |

20 # Instrument Transformer |
00:46:20 |

21 # Error Analysis |
01:26:32 |

1 # Boolean Algebra |
02:52:25 |

2 # K-Map |
02:58:23 |

3 # Practice questions on Minimization |
00:56:17 |

4 # Logic Gates-1 (NOT, AND, OR Gates) |
01:07:33 |

5 # Logic Gates-2 (NAND & NOR Gates) |
00:57:25 |

6 # Logic Gates-3 (Ex-OR & Ex-NOR Gates) |
03:07:04 |

7 # Logic Gates-4 & Combinational Circuits-1 |
03:21:50 |

8 # Combinational Circuits-2 |
02:14:22 |

9 # Combinational Circuits-3 |
00:38:41 |

10 # Combinational Circuits-4 |
02:04:49 |

11 # Combinational Circuits-5 |
01:59:55 |

12 # Decoder,Encoder & Sequential Circuits-1 |
02:35:00 |

13 # Sequential Circuits-2 |
02:45:23 |

14 # Flip-Flops |
01:55:24 |

15 # Registers (SISO & SIPO) |
01:52:54 |

16 # PISO & PIPO REGISTERS and COUNTERS-1 |
03:03:33 |

17 # Synchronous Counter |
03:13:15 |

18 # Number System-1 |
02:41:19 |

19 # NUMBER SYSTEM-2 |
03:20:06 |

1 # CLASSIFICATION OF SWITCHES, CHARACTERISTICS OF SWITCHES, POWER DIODE |
01:12:30 |

2 # Power Semiconductor Devices |
00:43:18 |

3 # Power Semiconductor Devices |
01:10:23 |

4 # Phase Controlled Rectifier |
01:25:21 |

5 # Phase Controlled Rectifier |
01:22:51 |

6 # Phase Controlled Rectifier |
01:16:55 |

7 # Choppers |
01:23:47 |

8 # Choppers |
00:20:17 |

9 # Chopper |
01:20:04 |

10 # Inverter |
00:50:52 |

11 # Inverter |
00:28:39 |

12 # Inverter |
01:00:53 |

1 # Power supply |
00:58:50 |

2 # Diode Application |
00:50:24 |

3 # BJT and its operation in Active mode, region of operation, early effect |
00:53:22 |

4 # Instability in collector current, stability factor, various biasing circuit used in BJT |
00:50:43 |

5 # Numerical based on biasing circuit and operating point, Biasing in IC circuit, Current mirror circuit, Numerical based on current mirror circuit, WIDLER current source, Thermal rum away |
00:43:17 |

6 # BJT as Amplifier |
00:38:54 |

7 # Small Signal Analysis of Amplifier |
00:53:04 |

8 # Low and High Frequency Analysis of BJT |
00:58:49 |

9 # Multistage Amplifier |
00:32:50 |

10 # Feedback Amplifier |
00:51:33 |

11 # Differential Amplifier |
00:47:12 |

12 # Operational amplifier |
00:54:43 |

13 # Numerical based on OPAMP (Part1) |
00:27:33 |

14 # Numerical based on OPAMP (Part2) |
01:02:23 |

15 # Non inverting amplifier with non-ideal OPAMP, Schmitt trigger, Multivibrator- Monostable and Astable Multivibrator |
00:50:26 |

16 # JFET & MOSFET |
00:56:02 |

17 # Low and High frequency analysis of JFET and MOSFET, CMOS inverter and numerical based on CMOS |
00:36:39 |

18 # Oscillator |
00:41:05 |

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