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The following series parameters are for reference only. Detailed technical parameters are subjuct to technical specifications.
|Series Title||Power(W)||Vin(VAC)||Vout(VDC)||No of Output||Isolation(VAC)||Package||Dimension(mm)|
Introduction: An efficient AC-DC power supply is an essential component of any electronic device. It is responsible for converting the incoming AC voltage into a DC voltage that can be used by the device. The power supply must be reliable and consistent, providing a stable output voltage even under varying load conditions. In this article, we will explore the importance of an efficient AC-DC power supply and the factors that contribute to its reliability and consistent performance. Importance of an efficient AC-DC power supply: An efficient AC-DC power supply is crucial for the proper functioning of electronic devices. It ensures that the device receives a stable and regulated DC voltage, which is essential for its safe and reliable operation. Without...View details
Introduction: In today's technologically advanced world, the demand for high voltage power supply modules has been increasing exponentially. These modules play a critical role in various industries, providing the necessary power to drive electrical systems with elevated energy levels. This article aims to explore the importance of high voltage power supply modules and their impact on empowering electrical systems. Understanding High Voltage Power Supply Modules: High voltage power supply modules are sophisticated electronic devices designed to convert and amplify voltage levels to meet the requirements of specific electrical systems. Their primary function is to take input voltage from a source and supply high voltage output to power various devices. These modules are commonly used in industries such as telecommunication, medical...View details
Introduction When it comes to electronic devices, the power supply is an essential component that ensures the device receives the necessary power to operate correctly. In this article, we will discuss how to build a 120-volt AC power supply that provides 3-volt DC output. Designing the Power Supply Before we begin building the power supply, we need to design it first. The power supply consists of two main stages: the AC to DC conversion and voltage regulation. AC to DC Conversion To convert AC power to DC power, we will use a bridge rectifier. A bridge rectifier is a circuit that converts AC power into pulsating DC power. The circuit consists of four diodes arranged in a bridge configuration, hence...View details
In recent years, the development of renewable energy sources such as wind and solar power has rapidly increased. However, these sources of energy are intermittent and the output varies depending on the weather condition and time of day. This leads to instability in the power grid. To solve this problem, a bi-directional DC-DC converter is used as a key device to transfer power between the renewable energy source and the power grid. The bi-directional DC-DC converter is a power electronic device that converts DC power from one voltage level to another voltage level. It can transfer power bidirectionally, meaning it can transfer power from the source to the load and vice versa. The converter consists of switches, inductors, capacitors, and...View details
Introduction: LEDs (Light Emitting Diodes) have become increasingly popular due to their energy efficiency and durability. However, one challenge in utilizing LEDs is the need to convert the alternating current (AC) power source to direct current (DC) for their operation. In this article, we will explore an efficient solution for converting 12V AC to DC for LED applications, highlighting its benefits and implementation. Understanding the Need for Conversion: While LEDs are designed to operate on low voltage DC power, the main power supply in most households and commercial buildings is AC power. Therefore, it is necessary to convert the incoming AC power to DC in order to power LEDs efficiently and effectively. This conversion process involves eliminating the negative half-cycles...View details
Abstract: This paper presents the design and implementation of a high-efficiency industrial AC-DC converter for reliable power conversion. The proposed converter is based on a two-stage structure that includes a power factor correction (PFC) stage and a DC-DC stage. The PFC stage is implemented using a boost converter, while the DC-DC stage is implemented using a full-bridge converter. The proposed converter is capable of operating in a wide input voltage range and provides a regulated DC output voltage. Simulation and experimental results show that the proposed converter achieves high efficiency and meets the requirements of industrial applications. Introduction: In industrial applications, reliable power conversion is essential to ensure the stable operation of various equipment and systems. AC-DC converters are widely...View details