AC-DC Converters

An AC-DC converter, also known as a rectifier, is an electrical circuit that converts an alternating current (AC) input to a direct current (DC) output and optimizes it through a filter to obtain a DC voltage unregulated. With technological advancements in power electronics, AC/DC power supplies have become an integral part of our lives in recent years. These converters are ideal for various applications requiring efficient hardware implementations for AC/DC conversion to mitigate power losses and achieve significant cost savings.

Types:

Different types of power electronic converters are used to perform different functions (e.g., inverter, rectifier, etc.), ranging from a few milliwatts to thousands of watts. Depending on the type of function performed, they are classified into the following types:

DC to AC: Converts DC of desired frequency and voltage to AC

AC to DC: This converts AC to unipolar current (DC).

AC to AC: Converts AC to the desired frequency 

DC to DC: Converts DC (constant) to variable DC or variable DC to constant DC or desired voltage magnitude from line AC power.

How do they Work?

AC/DC power supplies are ideal when there is a need to power many devices or generate more efficient power generation. Generally, a transformer is used as a power source that changes the voltage of alternating current and stores it from alternating current to direct current. A transformer changes the voltage by the amount required by the device to which it is powered. 

In this process, the AC/DC power supply has at least two obligations:

• Converts alternating current from the mains into stable direct current.
• Prevent AC from interfering with DC's power output.
• They maintain the output voltage at a constant level.

What are the Requirements for an AC/DC Converter?

The following should be considered when choosing a power source for industrial automation, IoT, and intelligent home appliances.

• High Efficiency

AC-DC converters should be highly efficient, resulting in low energy loss during operation.

• Compact Size

Modern smart devices are getting smaller, lighter, and designed to be easy to install. Therefore, AC/DC converter manufacturers should follow this trend.

• Low Standby Power

AC/DC power supplies should have low power consumption in standby mode. This is very important for some IoT or smart home devices that require a power converter to provide power and mainly work in sleep mode, including sensors or electric curtains, door lock systems, etc. 

What are the Advantages of AC/DC Converters?

The benefits of using an AC/DC converter are summarized in three points:

• Low Consumption:

These converters are devoid of the need for multiple inverters and converters. Reducing power conversion and inversion also avoids the possibility of equipment failure. 

• Cost-Saving:

These converters satisfy low power operation during long periods of standby. Its high energy-saving ability makes it ideal for industrial applications and household appliances.

• Space-Saving:

Smaller power converters save more space on the device and can reduce the overall device size, especially for a variety of portable devices and consumer electronics. These converters tend to be lightweight, compact, and easy to install in industrial applications.

Typical Applications:

There are many real applications based on this transformation. AC-DC converters are used in:

• measuring tool,
• industrial process control systems.
• Medical equipment
• semiconductor manufacturing equipment.
• consumer devices and
• defense claims.