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Electrical

Modified on

07 Jun 2023 07:34 pm

What is Multiphase Converter?

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The single-phase classic buck converter's shortcoming was overcome with this technology. Because a single switch, diode, and inductor are used in a standard single-phase buck converter. As a result, these components have current constraints and are unable to work beyond them. The system is required to be run at a high current for greater power applications. However, all of these components have restrictions. Using several single classic buck converters is the best solution. The multiphase buck converter is a technology that may be utilized for low voltage, high current applications.

The circuit schematic for a multiphase buck converter is shown above. It is clear from the diagram that it is just a parallel connection of buck converters. All of their inputs are connected to each other as outputs and then to a filter. The filter will filter out the majority of ripples and send DC power to the load. Because next-generation CPUs and ASICs demand larger currents, lower voltage, and faster dynamic response, this technology might be very useful in the future.

It must be run efficiently and with power management systems in place. In summary, this technology will be in more demand as a result of the increased power density demanded by higher operating frequencies and efficiency. This technology is gaining traction in order to meet future power demands. Low-power, high-density applications may be managed with two-phase systems, but high-power applications may require four-phase solutions or even more. The reason for this is due to component restrictions as well as other buck converter limitations. As a result, higher-phase solutions are required for high-density applications.

Advantages of Multiphase

Even though the multiphase approach has many additional benefits, just a few of them are described and explained in this article. Some of the benefits are as follows:

1) Better Efficiency

Instead of converting in two steps, the highest power efficiency may be attained by converting in a single stage. For example, a two-phase forward converter rated at 100W must convert 24V to 1.2V. In a two-phase conversion, the current is divided evenly into two phases. As a result, because we know those switch losses are R, the losses will be decreased by 50%. Second, a reduced peak current reduces turn-on and turn-off losses. As a result, overall productivity will improve.

2) Input/output ripples reduction

Multiphase PWM controllers improve the switching frequency. The number of phases is directly proportional to the switching frequency. The Multiphase's frequency is equal to the PWM clock frequencies of individual inverters multiplied by the number of phases. The size of the inductor may be lowered for higher working frequencies, and just a modest input-output capacitor is required. Because a single buck converter is confined to a certain frequency, this is one of the key advantages of multiphase.

3) Better thermal management

The frequency is inversely proportional to the size of the inductor, as stated in the previous article. The dynamic responsiveness will now be improved by the little inductor. In other words, the low impedance caused by the small inductor will allow the current to be changed quickly.

4) Ease of manufacturability

For next-generation designs, automated assembly and a compact form factor are necessary. Bulky inductors, transformers, and capacitors, as well as manual soldering, were eliminated in subsequent generations of designs.

In conclusion, the field of multiphase converters presents exciting opportunities for those interested in power electronics and energy conversion. Understanding the principles and applications of multiphase converters can open doors to various industries and research domains. By enrolling in a dedicated course on multiphase.


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Navin Baskar


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