ニュース
パワーモジュールを設計する際に考慮すべきこと
著者: ZYGパワーモジュール Time: 2022-9-21
If you are a switching power supply technical engineer, you don’t need to read the introduction of the power module. When you are still a novice, or learning microcontroller design, it is best to look down word by word.
The benefits of choosing a power module
At present, different distributors have released a variety of different power modules in the sales market, but the working voltage, power, function and topology structure types of different products are not the same.
Choosing a power module saves development design time and enables a quick time-to-market, so a power module is preferred over an integrated solution.
1. Each control module can be tested rigorously in various aspects to ensure that its aspect ratio is reliable, mainly including plug-in testing, which is convenient for rejecting unqualified products.
In contrast, integrated solutions are more difficult to detect because all power distribution systems are closely related to other system software on the power supply circuit.
2. Different dealers can design control modules of the same size according to the current standard specifications, providing different choices for technical engineers designing DC switching power supplies.
3. The design scheme and test of each control module are carried out in accordance with the requirements of the specification characteristics, which is conducive to reducing the risk of new technology application.
4. If the integrated solution is adopted, if there is a problem with the software of the switching power supply system, the entire motherboard must be disassembled and replaced; if the control module design scheme is selected, the difficult control module can be removed and replaced, which is conducive to reducing costs and development time.
Power module design issues that are easy to ignore
While there are several advantages to choosing a control module design, an on-board DC/DC converter design such as the control module design is itself a problem that many people don’t understand or pay enough attention to.
Some of these difficulties include: accurate measurement of output noise; magnetic field system software design; thermal breakdown issues of isometric blood pressure converters; printed PCB board reputation.
Magnetic Design
The reliability of the core is another issue that is often overlooked by others. Most output inductor coils are made of copper powder, which is the lowest cost raw material. About 96% of the copper core is pure iron.
The copper particles are bonded together using an organic chemical binder, which also separates each copper particle to fill the permeability of the interior space inside and outside the core.
関連情報
-
2023-6-30
Bidirectional DC-DC Converter: A Versatile Solution for Efficient Power Flow
Introduction: With the increasing demand for efficient power distribution and energy management in various applications such as renewable energy systems, electric vehicles, and microgrids, the bidirectional DC-DC converter has emerged as a versatile solution. This article aims to discuss the working principles, advantages, and applications of bidirectional DC-DC converters, highlighting their significance in achieving optimal power flow. 1. Working Principles: A bidirectional DC-DC converter is a power electronic device that enables the transfer of electrical energy between two DC voltage sources bidirectionally. It consists of two stages: step-up (boost) and step-down (buck) converters. The bidirectional flow of power is achieved by controlling the switching states of semiconductor devices, such as MOSFETs or IGBTs, in both stages. By regulating the voltage...
詳細を見る -
2023-6-24
Bi-Directional DC-DC Converter: Efficient Power Conversion in Both Directions
Introduction The development of renewable energy sources has led to the need for efficient power conversion technologies. One such technology is the bi-directional DC-DC converter, which is capable of converting power in both directions. This article discusses the operation and benefits of bi-directional DC-DC converters in power conversion systems. Bi-Directional DC-DC Converter Operation A bi-directional DC-DC converter is a power electronic device that can convert DC voltage from one level to another and transfer power in both directions. The converter consists of two power switches, an inductor, and a capacitor. The switches are controlled by a digital controller that determines the direction of power flow. The operation of the bi-directional DC-DC converter can be divided into two modes: the buck...
詳細を見る -
2023-7-14
The Electric Power Series: Empowering English
Learning English has become increasingly important in today's globalized world. It is not only a means of communication but also a gateway to opportunities and success. To empower individuals with this essential skill, we present "The Electric Power Series: Empowering English." The Electric Power Series is a comprehensive English language learning program designed to cater to learners of all levels and backgrounds. Whether you are a beginner starting from scratch or an advanced learner aiming to polish your language skills, this series has something for everyone. One of the key features of the Electric Power Series is its interactive and engaging content. Gone are the days of monotonous textbooks and dull lectures. The series incorporates multimedia elements such as videos,...
詳細を見る -
2023-12-16
650W Fully Modular Power Supply: Streamlining Your PC Power Management
With the increasing demand for high-performance computers, having a reliable and efficient power supply is crucial. The power supply unit (PSU) is responsible for delivering the necessary power to all the components in a computer system. One such power supply that stands out in the market is the 650W fully modular power supply. In this article, we will delve into the features and benefits of this power supply and how it can streamline your PC power management. First and foremost, let\'s understand the meaning of a fully modular power supply. Unlike traditional power supplies, a fully modular power supply allows you to detach all the cables from the PSU itself. This means that you can connect only the necessary cables...
詳細を見る -
2023-4-19
How to distinguish between AC and DC power supply?
AC and DC power supplies are two different types of electrical power, and it is important to be able to distinguish between the two. AC stands for alternating current, while DC stands for direct current. The primary difference between AC and DC power is the way in which the electrical current flows. AC power is characterized by a constantly changing direction of current flow. This means that the voltage and current in an AC circuit oscillate back and forth at a specific frequency. In contrast, DC power flows continuously in one direction, with a constant voltage and current. There are several ways to distinguish between AC and DC power supplies, including the following: 1. Check the voltage rating One of...
詳細を見る -
2023-4-20
Creating an AC-DC Power Supply: A Comprehensive Guide
An AC-DC power supply is a device that converts alternating current (AC) to direct current (DC). It is used in a wide range of electronic devices such as computers, televisions, and mobile phones. In this guide, we will provide you with a comprehensive guide on how to create your own AC-DC power supply. Step 1: Determine Your Requirements Before you start building your power supply, you need to determine your requirements. Ask yourself the following questions: - What voltage do you need? - What current do you need? - What is the input voltage? - What is the output voltage? Step 2: Choose a Transformer The transformer is an important component of the AC-DC power supply. It converts the incoming...
詳細を見る