SPM30-EA
Следниве сериски параметри се само за референца. Деталните технички параметри подлежат на техничките спецификации.
Модул за производ | Моќност (W) | Vin (VAC) | Vout (VDC) | Број на излез | Изолација (VAC) | Пакет | Димензии (мм) | Извештај од тестирањето |
SPM30-S05-EA | 30 | 85~264 | 5 | 1 | 2500 | Жици | 98*52*22 | |
SPM30-S12-EA | 30 | 85~264 | 12 | 1 | 2500 | Жици | 98*52*22 | |
SPM30-S24-EA | 30 | 85~264 | 24 | 1 | 2500 | Жици | 98*52*22 | |
SPM30-S48-EA | 30 | 85~264 | 48 | 1 | 2500 | Жици | 98*52*22 |
SPM Series Introduction
The SPM Series power supplies are known for their high precision, stability, and reliability. These power supplies are designed to deliver a highly accurate and stable output voltage, current, or power, which is essential for many sensitive applications in industries such as aerospace, defense, automotive, and telecommunications.
The SPM Series power supplies are highly efficient, with an efficiency rating of up to 93%. This not only reduces energy consumption and operating costs, but also minimizes the amount of heat generated by the power supply, which can help to extend the lifespan of the power supply and the devices it powers.
The SPM Series power supplies are used in a wide range of applications, including research and development, quality control, production testing, and burn-in testing. They are designed to provide reliable, stable, and accurate power output in a variety of settings and environments, and are a trusted choice for engineers, researchers, and system integrators around the world.
Претходно: SPM36-EA
Следно:
релевантни информации
-
2023-4-13
AC-DC Converter: Making the Switch from Alternating to Direct Current
AC-DC converters, also known as rectifiers, are electronic devices that convert alternating current (AC) to direct current (DC). This is important because most electronic devices, such as computers and televisions, require DC in order to operate. AC-DC converters are used extensively in power supply applications and are a common component in many electronic devices. The process of AC-DC conversion begins with the rectification of the AC signal. Rectification is the process of converting the AC signal into a DC signal by removing the negative portion of the waveform. This is done using a rectifier diode, which allows current to flow in only one direction. The result is a pulsating DC signal that has a voltage equal to the peak value...
Погледнете детали -
2023-4-22
Building a 120V AC Power Supply for 3V DC Output
Building a 120V AC Power Supply for 3V DC Output If you need a 3V DC power supply, there are a lot of options to choose from. However, if you want to build one yourself, you can do it with a few simple components. Here\'s how to build a 120V AC power supply for a 3V DC output. Step 1: Gather Your Materials To build a 120V AC power supply for a 3V DC output, you\'ll need the following components: - Transformer with a 120V AC primary and a secondary output of 3V AC - Rectifier diode (1N4007) - Capacitor (1000uF, 25V) - Voltage regulator IC (LM7803) - Heat sink for the voltage regulator - Resistor (240 ohm) Step 2:...
Погледнете детали -
2023-7-19
Is the Bidirectional Converter effectively bridging the gap between languages?
Introduction Language is a remarkable tool that enables communication and understanding among individuals. However, language barriers often hinder effective communication, both in personal and professional settings. The bidirectional converter aims to overcome these obstacles by providing a seamless transition between languages. This article explores the significance of bidirectional converters and their potential to bridge the gap between languages. Understanding Bidirectional Conversion Bidirectional conversion refers to the process of translating text or speech between two languages, while maintaining the integrity and context of the original message. Unlike traditional translation methods that focus on one-way conversion, bidirectional converters allow for a dynamic exchange of languages. These sophisticated systems employ cutting-edge technologies, such as natural language processing and machine learning algorithms, to ensure...
Погледнете детали -
2023-4-18
како да се поврзете напојување од наизменична струја во еднонасочна струја
Wiring an AC to DC power supply requires basic knowledge of electrical circuits and components. In this article, we will discuss the steps to wire an AC to DC power supply and the materials needed for the project. Materials Needed - AC to DC power supply - AC power cord - DC power cables - Soldering iron - Solder - Wire strippers - Heat shrink tubing - Electrical tape Steps to Wire an AC to DC Power Supply 1. Identify the input voltage and the output voltage of your AC to DC power supply. This information is usually printed on the label or the manual of the power supply. 2. Turn off the power supply and unplug it from the...
Погледнете детали -
2023-7-12
Exploring the Functionality of Bidirectional Converters in English
Introduction In recent years, bidirectional converters have gained significant attention in the field of electronics and power systems. These converters play a crucial role in enabling power flow in both directions, allowing for efficient energy management and conversion. This article aims to explore the functionality of bidirectional converters in the English language, highlighting their importance and applications. Understanding Bidirectional Converters Bidirectional converters, also known as bi-directional power converters, are electronic devices that facilitate the flow of power in two directions. Unlike traditional converters, which only allow power flow in one direction, bidirectional converters ensure efficient energy transfer between sources and loads. This bidirectional functionality makes them ideal for various applications, including renewable energy systems, electric vehicles, and energy storage systems....
Погледнете детали -
2023-10-13
DC-DC Power Supply Module: Transforming Voltage with Efficiency
Introduction: The DC-DC power supply module is a vital component in electronic systems that require different voltage levels for their operation. This module plays a crucial role in transforming the input voltage into the desired output voltage with high efficiency. In this article, we will explore the working principle, advantages, and applications of the DC-DC power supply module. Working Principle: The DC-DC power supply module operates based on the principle of switching regulation. It converts the input DC voltage to a high-frequency AC signal using a switching technique. This AC signal is then rectified and filtered to obtain the desired DC output voltage. The key advantage of this approach is its ability to efficiently step-up or step-down the voltage level,...
Погледнете детали