PRODUCTS
SPM50-EA
The following series parameters are for reference only. Detailed technical parameters are subjuct to technical specifications.
Product module | Power(W) | Vin(VAC) | Vout(VDC) | No of output | Isolation(VAC) | Package | Dimension(mm) | Test report |
SPM50-220S12-EA | 50 | 165~265 | 12 | 1 | 2500 | Wiring | 98*52*22 | |
SPM50-220S24-EA | 50 | 165~265 | 24 | 1 | 2500 | Wiring | 98*52*22 | |
SPM50-220S48-EA | 50 | 165~265 | 48 | 1 | 2500 | Wiring | 98*52*22 | |
SPM50-220S50-EA | 50 | 165~265 | 50 | 1 | 2500 | Wiring | 98*52*22 |
SPM Series application
1. Aerospace and Defense: The SPM Series power supplies are widely used in the aerospace and defense industry for testing and simulation of various systems, including avionics, communication, and guidance systems. These applications require highly precise and stable power supplies that can simulate real-world conditions accurately.
2. Automotive: The SPM Series power supplies are used in the automotive industry for various testing applications, such as battery testing, motor testing, and component testing. These applications require reliable and flexible power supplies that can handle different load conditions and provide accurate measurements.
3. Energy: The SPM Series power supplies are used in the energy industry for testing and simulation of renewable energy systems, including solar and wind power systems. These applications require high precision and stable power supplies that can simulate various operating conditions accurately.
4. Industrial Automation: The SPM Series power supplies are used in industrial automation applications for powering and controlling various equipment, such as motors, pumps, and controllers. These applications require reliable and flexible power supplies that can handle different load conditions and provide accurate measurements.
5. Medical: The SPM Series power supplies are used in medical applications for powering and controlling various medical equipment, such as imaging systems, diagnostic equipment, and life-support systems. These applications require highly precise and stable power supplies that can operate in a variety of environments and provide accurate measurements.
6. Research and Development: The SPM Series power supplies are widely used in research and development applications, including physics, chemistry, and materials science. These applications require high precision and stable power supplies that can provide accurate and consistent power output for various experiments and testing.
7. Semiconductor: The SPM Series power supplies are used in the semiconductor industry for testing and simulation of various systems, including semiconductor production equipment and wafer testing. These applications require highly precise and stable power supplies that can simulate real-world conditions accurately.
8. Telecommunications: The SPM Series power supplies are used in the telecommunications industry for testing and simulation of various systems, including telecom equipment and communication systems. These applications require highly precise and stable power supplies that can simulate real-world conditions accurately.
9. Transportation: The SPM Series power supplies are used in transportation applications for testing and simulation of various systems, including rail systems, marine systems, and aviation systems. These applications require highly precise and stable power supplies that can simulate real-world conditions accurately.
relevant information
-
2023-7-20
What are the functionality and benefits of a bidirectional converter?
Introduction In recent years, there has been a growing demand for efficient energy conversion systems that can seamlessly handle bidirectional energy flow. This need has led to the development of bidirectional converters, which have gained immense popularity in various applications such as renewable energy systems, electric vehicles, and energy storage systems. This article aims to explore the functionality and benefits of a bidirectional converter in detail. What is a Bidirectional Converter? A bidirectional converter is an electronic device that can convert electrical energy between two different forms, such as DC to AC or AC to DC, while facilitating energy flow in both directions. The converter consists of power electronic components, such as transistors or thyristors, that control the direction and...
View details -
2022-10-17
How to buy DC-DC Converter and what it does
When looking for a DC-DC converter, it's important to consider your needs and choose the right converter for the job. There are a wide variety of converters on the market, so it's important to do your research and find the one that best meets your requirements. What is a DC-DC converter? A DC-DC converter (direct current to direct current converter) is an electronic converter that converts a direct current (DC) input to a direct current output. DC-DC converters are often used to convert the voltage from the battery to a level suitable for powering electronic devices. DC-DC converters are also used in power supplies to convert an AC input voltage to a DC output voltage. What are the...
View details -
2023-5-16
110V AC to 12V DC Converter: Efficiently Power Your Devices
In today's world, electronic devices have become an integral part of our lives. From smartphones to laptops, from TVs to car stereos, we use a variety of devices on a daily basis. However, many of these devices require different types of power sources, and this can create a lot of inconvenience for people who want to use them in different locations. One solution to this problem is to use a 110V AC to 12V DC converter, which can efficiently power your devices wherever you go. A 110V AC to 12V DC converter is a device that converts the power from an AC source to a DC source. It works by taking the 110V AC power from a wall outlet and...
View details -
2023-7-17
Exploring the World of Medical Power: A Comprehensive Series
Introduction: The medical field is a vast and ever-evolving realm that holds immense power to heal, cure, and improve the lives of individuals. In this comprehensive series, we will delve into various facets of medical power, exploring its different dimensions, advancements, and the impact it has on society. From groundbreaking medical technologies to the ethical dilemmas faced by healthcare professionals, this series aims to shed light on the multifaceted world of medical power. Chapter 1: The Evolution of Medical Power: In this chapter, we will trace the origins of medical power and its evolution over time. From ancient healing practices to the advent of modern medicine, the journey of medical power has been marked by significant milestones. We will explore...
View details -
2024-1-4
Versatile Adjustable Power Supply Module: Empowering Electronics with Precision and Flexibility
In the fast-paced world of electronics, having a reliable and efficient power supply is essential. Whether you are a professional engineer or an electronics hobbyist, the need for a versatile and adjustable power supply module cannot be overstated. This article explores the importance of such a module and the benefits it brings to the field of electronics. Importance of a Versatile Adjustable Power Supply Module: A power supply module is a crucial component in any electronic system. It provides the necessary electrical energy required for the smooth functioning of various electronic devices. However, a standard fixed power supply may not always meet the diverse requirements of different electronic circuits. This is where a versatile adjustable power supply module comes into...
View details -
2023-4-14
AC-DC Converter: Converting Alternating Current to Direct Current
An AC-DC converter is an important device that converts alternating current (AC) to direct current (DC). This conversion is necessary in many electronic devices because most of them require DC power to operate. AC-DC converters are used in a wide range of applications, from small household appliances to industrial machinery. In this article, we will explore the working principle of AC-DC converters and their different types. Working Principle of AC-DC Converters The basic principle behind an AC-DC converter is to convert the sinusoidal waveform of AC power into a DC voltage. This process involves rectifying the AC waveform and filtering the resulting waveform to produce a steady DC voltage. The rectifier circuit uses diodes to convert the AC waveform into...
View details