VARIABLE FREQUENCY DRIVE OR VARIABLE SPEED DRIVES

Silabus Training :

VARIABLE FREQUENCY DRIVE OR VARIABLE SPEED DRIVES

 

INTRODUCTION :

The rapid adoption of automation techniques in industry has increased the requirement for better process control. This has resulted in many new applications for AC variable speed drives (VSDs) to control the speed and torque of driven machinery. Variable speed drives (VSDs) are also used to meet particular starting and stopping requirements.

The variable speed drives course promotes a sound understanding of how VSDs work and how to correctly select, install, commission and maintain them. There is also detailed coverage of many typical applications in process control and materials handling such as those for pumping, ventilation, conveyers and hoists.

 

TRAINING OBJECTIVE :

  • The principles of AC variable speed drives for industrial speed control
  • The essentials of squirrel cage induction motors
  • The latest developments in power electronic converters used for VSDs
  • How to select the correct AC variable speed drive for industrial applications
  • How to identify faults on VSDs and how to rectify them
  • The key issues about flux vector control and how it can be used in drive applications
  • The main concepts in interfacing the control circuits of VSDs with PLCs/DCSs using serial data communications

 

TRAINING MATERIAL OUTLINE :

1: Introduction.

A review of the fundamentals in variable speed drives including motion concepts, torque speed curves, types of variable speed drives, mechanical variable speed drive methods and electrical variable speed drive methods.

 

2 : 3-phase AC induction motors.

These versatile and robust devices are the prime movers for the vast majority of machines. This course section covers the basic construction, electrical and mechanical performance, motor acceleration, AC induction generator performance, efficiency of electric motors, rating of AC induction motors, duty cycles, cooling and ventilation, degree of protection of motor enclosures, methods of starting and motor selection.

 

3: Power electronic converters.

This course section deals with the active components (e.g. diodes, thyristors, transistors) and passive components (e.g. resistors, chokes, capacitors) used in power electronic circuits and converters.

 

4 : Electromagnetic compatibility (EMC).

Interference in circuits refers to the presence of unwanted voltages or currents in electrical equipment, which can damage the equipment or degrade its performance. The impact of variable speed drives can be severe and this course section examines what causes interference and how to minimize its impact.

 

5 : Protection of AC converters and motors.

The protection of AC variable speed drives includes the protection of the AC converter and the electric motor. The main methods of protection are examined.

 

6 : Control systems for AC variable speed drives.

The overall control system can be divided into four main areas of the inverter control system, speed feedback and control system, current feedback and control system and the external interface.

 

7 : Selection of AC converters.

Although manufacturers’ catalogs try to make it as easy as possible, there are many variables associated with the selection and rating of the optimum electric motor and AC converter for a VSD application. This course section covers many of the principles for the correct selection for AC variable speed drives, which use pwm-type variable voltage variable frequency (VVVF) converters to control the speed of standard AC squirrel cage induction motors.

 

8 : Installation and commissioning.

The main issues here of general installation and environmental requirements, power supply and earthing requirements, start/stop of AC drives, installing AC converters into metal enclosures, control wiring and commissioning variable speed drives.

 

9 : Special topics and new developments.

Typical topics of soft-switching and the matrix converter are examined here.

 

TRAINING MATERIAL OUTLINE :

  • Consulting electrical engineers
  • Plant engineers and instrument technicians
  • Operations technicians
  • Electrical maintenance technicians and supervisors
  • Instrumentation and control system engineers
  • Process control engineers
  • Mechanical engineers

VENUE : Yogyakarta (Ibis Styles Hotel/ Ibis Malioboro Hotel/ Jambuluwuk Hotel/ Cavinton Hotel/ Grand Zuri Hotel, dll)

 

TRAINING DURATION :  4 days

 

TRAINING TIME :

Januari 2025Februari 2025Maret 2025April 2025
6 - 9 Januari 20253 - 6 Februari 20253 - 6 Maret 20257 - 10 April 2025
13 - 16 Januari 202510 - 13 Februari 202510 - 13 Maret 202514 - 17 April 2025
20 - 23 Januari 202517 - 20 Februari 202517 - 20 Maret 202521 - 24 April 2025
27 - 30 Januari 202524 - 27 Februari 2025 28 Apr - 2 Mei 2025
    
Mei 2025Juni 2025Juli 2025Agustus 2025
5 - 8 Mei 20252 - 5 Juni 20251 - 4 Juli 20254 - 7 Agustus 2025
12 - 15 Mei 20259 - 12 Juni 20257 - 10 Juli 202511 - 14 Agustus 2025
19 - 22 Mei 202516 - 19 Juni 202514 - 17 Juli 202518 - 21 Agustus 2025
26 - 29 Mei 202523 - 26 Juni 202521 - 24 Juli 202525 - 28 Agustus 2025
  28 - 31 Juli 2025 
    
September 2025Oktober 2025November 2025Desember 2025
1 - 4 September 20256 - 9 Oktober 20253 - 6 November 20251 - 4 Desember 2025
8 - 11 September 202513 - 16 Oktober 202510 - 13 November 20258 - 11 Desember 2025
15 - 18 September 202520 - 23 Oktober 202517 - 20 November 202515 - 18 Desember 2025
22 - 25 September 202527 - 30 Oktober 202524 - 27 November 202522 - 25 Desember 2025
29 Sep - 2 Okt 2025   

INVESTATION PRICE/PERSON :

  1. Rp. 8.500.000/person (full fare) or
  2. Rp. 8.250.000/person (early bird, payment 1 week before training) or
  3. Rp. 7.950.000/person (if there are 3 persons or more from the same company)

 

FACILITIES FOR PARTICIPANTS :

  1. Training Module
  2. Flash Disk contains training material
  3. Certificate
  4. Stationeries: Notebook and Ballpoint
  5. T-Shirt
  6. Backpack
  7. Training Photo
  8. Training room with Full AC facilities and multimedia
  9. Lunch and twice coffeebreak every day of training
  10. Qualified Instructor