Burraq

December 1, 2022
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November 8, 2022

Variable Frequency Drive Training Course

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Burraq Engineering Solutions is offering VFD training course by world-wide-experienced instructor. BES is offering physical classes of vfd training in Lahore and Online VFD training in all over the Pakistan. From last 8 years we are serving in the field of Automation &  Electrical Engineering , so all fresh graduates, engineers and professionals are invited to enhance their skills by joining our training sessions

Fee: 25,000

Duration: 3 Weeks

Timing:  9AM-11AM, 11AM-1PM, 1PM-3PM, 3PM-5PM, 5PM-7PM, 7PM-9PM

 

VFD Training Course In Lahore outlines given bellow:

 

  1. Overview of different VFD’s Fuji, INVT, and Danfoss and Schneider
  2. Selection of VFD for Motor
  3. Source of Freq.in VFD
  4. Source of Operation in VFD
  5. Jog Mode of Operation in VFD
  6. Multiple Sources of Frequency in VFD
  7. Disable the Reverse Operation of Motor?
  8. How to Secure/Lock your Parameter?
  9. Multi-step Speed Commands in VFD
  10. Acceleration & Deceleration Time & Speed Inhibit
  11. How to Bound the Frequency of Drive (Upper Bound & Lower Bound Function)
  12. How to Reset the External Fault in Drive
  13. How to change External Control of VFD
  14. VFD Operational Feedback (ON/OFF)
  15. Reading feedback of getting Desired Frequency in VFD
  16. VFD Biasing
  17. Biasing the Frequency
  18. Biasing the Frequency with Pot. Freq. Gain
  19. Biasing the Voltage
  20. Acc./Dec. Time 1 (Default)
  21. Acc./Dec. Time 2 (Conditional)
  22. Introduction to Scaling
  23. Wiring and Installation of VFD
  24. Motor Speed Control using Built-in Potential.
  25. Motor Speed control using Keypad of VFD
  26. Motor Speed control using 0-10V (Analog Values)
  27. Motor Speed control using 0-20mA (Analog Values)
  28. Motor Max and Min Frequency set/reset
  29. VFD Overload activation for Motor Protection
  30. Motor Reverse Forward using functions.
  31. Advance Functions
  32. Two Motors On/off using One VFD
  33.  Motor Speed Control through Thermocouple (Analog Sensor)
  34.  Motor Reverse Forward using external signals.
  35.  Synchronization of two VFD’s (TEXTILE MILL Examples)
  36.  Complete wiring of VFD
  37.  Wiring of Analog sensors with VFD

 

Variable Frequency Drive

Variable frequency drives or frequency converters are important elements in power electronics. They are used to convert an alternating voltage of a defined level and frequency into an alternating voltage of another or the same voltage level and frequency. Frequency converters are used to set the speed of AC and three-phase drives. By controlling the amplitude, frequency and phase position of the voltage on the machine, it is possible to set the machine’s torque and speed.
The frequency converters are made up of a rectifier and an inverter and convert from AC to DC back to AC. Their important role in practice means that they are viewed as a separate type of converter.

 

A frequency converter consists of 3 basic components:

1. Rectifier
2. Inverter
3. Intermediate circuit

 

The voltage supplied by the AC network is first rectified by the network-side rectifier, smoothed in the intermediate circuit and converted by the machine-side inverter into the voltage with the desired number of phases, frequency and amplitude

1. Rectifier in VFD

The line-side converter represents the link between the feeding network and the intermediate circuit (AC-DC). Depending on the design of the circuit, it is also an actuator for controlling the flow of energy. The AC-DC converter is implemented with an externally guided converter (rectifier).

 

2. Inverter

The load-side converter sets the operating conditions required by the load, ie frequency, voltage and current. It also represents an actuator for the flow of energy. This DC-AC converter can only be implemented with a self-commutated converter.

3. Intermediate circuit.

The intermediate circuit is responsible for the intermediate storage of the energy. This happens either as a direct voltage (voltage intermediate circuit or U converter) or as a direct current (current intermediate circuit or I converter). A capacitance or an inductance can serve as a memory. These are dimensioned in such a way that the voltage Ud for the U converter and the current Id for the I converter are greatly smoothed and can be viewed as constant quantities. This decouples the two converters to such an extent that they can be controlled independently of one another.
Advantages of VFD

 

 

Thanks to a number of advantages that VFD bring with them. Here are some of them:

  • The most important advantage of a frequency converter is the possibility of continuously changing the speed of a motor. The speed range can be significantly expanded.
  • A frequency converter enables the direction of rotation of a motor to be changed quickly.
  • Frequency converters absorb the peak start-up currents of a motor. Conventionally, various means were used for this, such as the star-delta connection, the starting transformer or thyristor starter. This means that the supply network is not disturbed and the torque is not negatively influenced.
  • A three-phase network is not always necessary in order to be able to use a frequency converter. For smaller motors there are single-phase frequency converters with 230 VAC input voltage. They then provide a three-phase AC voltage for motors at the output.
  • Today’s frequency converters usually provide various interfaces. They allow a frequency converter to be controlled in different ways. This means that a frequency converter can usually be connected to a larger system without any problems. In addition to conventional control via terminals, interfaces such as Profibus or Profinet are widely used.
  • Numerous parameters enable the drive to be optimally adapted to the requirements. These include, for example, up and down ramps, braking behavior or starting with an increased torque (voltage increase / boost).
  • Numerous messages in the event of a malfunction make it much easier to localize the cause of the malfunction.
  • There are frequency converters that are mounted both centrally (eg in a control cabinet) and decentrally (eg directly on a motor, wall mounting).
  • Appropriate software is available for many frequency converters. This makes it possible to implement all settings, the entire commissioning, monitoring and troubleshooting via PC. The parameter values can be stored in a separate file and thus complete the documentation. 10. Different frequency converters are used depending on the area of application. Servo drives are used where, for example, very high speed, dynamics or positioning accuracy are required. They are used, for example, in industrial robots

Course Content

About the instructor

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45 Courses

2 students

Rs25,000.00
Durations: 45 hours
Lectures: 0
Students: Max 0
Level: Intermediate
Language: English
Certificate: Yes
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