Introduction to DriveStart Technology

Introduction to DriveStart Technology

In today’s industrial environment, there are two primary tools that allow motors to safely reach optimal speed and torque efficiently -- Soft Starters and Variable Frequency Drives (or VFD’s). Both methods protect the motors and equipment from potential damage that can occur from Across the Line starting, resulting in an extended lifespan of your system.  However, a typical soft starter or VFD may not always be a perfect fit for your application requirement.  By combining elements of both the Soft Starter and VFD, the DriveStart is emerging as an alternative technology for many organizations with Medium Voltage applications. Below, we’ll breakdown the basics of Soft Starters and VFDs, explore the unique combination of functionality present in the DriveStart, and provide examples of DriveStart technology working in real-world applications today.

The Basics

Perhaps the best distinction between soft starters and VFDs is outlined by the company RealPars as follows: “A soft starter is generally used in applications where there is a large inrush of current that could damage the motor while a VFD controls and can vary the speed of a motor.” Breaking down the mechanics of each device gives us a better understanding of how they function and how they might be incorporated into your business.

A soft starter consists of six thyristors or silicon controlled rectifiers (SCRs) used to start the electric motor smoothly. Each thyristor contains a logic gate, a cathode, and an anode. When an internal pulse is applied to the logic gate, it allows a current to flow from the anode to the cathode and then out to the motor. No internal pulses applied to the logic gate means the current is restricted from the motor, limiting the applied voltage and slowing down inrush current.

Alternatively, a variable frequency device consists of a rectifier, filter, and inverter. The rectifier acts as a diode, taking the incoming AC voltage and changing it to DC voltage. Then, the filter uses capacitors to clean the DC voltage. Lastly, the inverter uses insulated gate bipolar transistors (IGBTs) to convert the cleaned DC voltage and send the motor a frequency in Hertz, driving the motor to a specific RPM. In this way, we come to realize that a VFD is basically a soft starter with speed control.

The Pros and Cons

But should you choose a soft starter or VFD for your business? The decision is ultimately dependent on how much control your application needs.

The primary distinction between the two devices is that a VFD can vary the speed of a motor while a soft starter can only control the starting and stopping of that motor (no speed control). While a soft starter is smaller and more cost-effective, a VFD is a better option if speed control is necessary for your application. However, should you choose a soft starter over a VFD, or vice versa, and later decide the other would better suit your business needs, they are both easily interchangeable on existing applications.


Interested in learning about the benefits of soft starters? Contact our Solcon professionals




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