What is the Difference Between Stacked Core and Wound Core?In the realm of electrical power systems, transformer cores play a pivotal role in determining the efficiency and functionality of transformers, reactors, and various other electromagnetic devices. The two primary types of cores used in thes

What is Tape Wound Core?In the world of electrical engineering, the efficiency and reliability of transformers, motors, and inductive components are critical. One key element that plays a major role in optimizing the performance of these systems is the wound core. In particular, tape wound cores are

How to Fix Wound CoreIntroduction to Wound Core and the Importance of Proper FixingWound cores play a vital role in the efficiency and performance of various electrical equipment, including transformers, reactors, and inductors. These components are critical in power distribution, electrical transmi

What Are the Key Advantages of Using Wound Cores in Electrical Equipment?Wound cores are essential components used in various electrical devices, particularly in transformers, inductors, and reactors. These cores serve as the central part of an electrical system, providing a pathway for magnetic fie

What Are Wound Cores for Transformers?Wound cores play a critical role in the efficiency and performance of transformers, which are essential components in power distribution systems. These magnetic cores are integral to conducting the magnetic flux that allows transformers to transfer energy betwee

Power generation systems around the world are under intense pressure to improve efficiency, reduce transmission losses, and support increasingly complex grids driven by renewable energy. At the center of this transformation lies a material that many people do not see, but every power plant depends on: Silicon Steel.

High Magnetic Induction Silicon Steel Powers Torque Motors for Humanoid RobotsHumanoid robots are transitioning from futuristic concepts to operational machines capable of navigating complex environments, performing physical labor, and interacting safely with humans.

As global energy systems shift toward digitalization, renewables, and distributed power, the materials behind key electrical components must evolve in parallel. At the heart of this transformation is Silicon Steel, a magnetic alloy that determines how efficiently transformers, reactors, motors, voltage stabilizers, and other smart-grid devices operate.

As industries worldwide accelerate electrification, intelligent automation, and digital energy management, Silicon Steel has become one of the most essential functional materials powering this technological transformation. Whether in electric vehicle (EV) drive motors, high-efficiency smart grid transformers, or high-torque humanoid robot actuators, Silicon Steel delivers high magnetic induction, low core loss, strong mechanical stability, and excellent high-frequency performance — all of which are indispensable for modern electrical systems.

IntroductionAs global demand for high-efficiency power equipment accelerates, Silicon Steel has become one of the most critical functional materials in modern electrical engineering. Whether in transformers, EV motors, humanoid robot torque motors, smart grids, charging infrastructure, or renewable-energy converters, the quality and type of Silicon Steel directly determine energy loss, durability, efficiency, and long-term stability.

Why does stainless steel resist rust while regular steel doesn't? Stainless steel's secret lies in its unique composition. This article explores the importance of corrosion resistance in stainless steel and its applications. You'll learn about chromium's role, alloying elements, and how stainless st

Transformer cores are crucial in electrical systems, guiding magnetic flux for efficient voltage transformation. Two key types, wound core and toroidal core transformers, serve distinct purposes. In this article, you'll learn about their applications in transformers and meters, helping you choose th

Imagine a world where electrical devices are inefficient and wasteful. Silicon steel revolutionizes electrical engineering, enhancing efficiency and performance. This article explores silicon steel's vital role in electrical engineering. You'll learn about its unique properties, applications in tran

Imagine a world without efficient transformers, motors, or generators. Silicon steel cores make these devices possible, offering superior magnetic properties. But what exactly are silicon steel cores, and why are they crucial in electromagnetic equipment? In this article, you'll learn about their ro

Understanding Stacked Cores in Step Lap Construction for TransformersTransformers are essential in power distribution and industrial applications, and their efficiency largely depends on the design of the transformer core. Step lap construction is a widely used technique to reduce energy losses, imp

Our Company Collaborates with Pakistani Partner to Manufacture High-Performance Uni-core Transformer CoresLocation: Jiangsu, ChinaRecently, our company reached an agreement with a long-term partner from Pakistan to cooperate on the manufacturing of Uni-core transformer cores. These cores are made fr

Our Company Partners with Philippine Transformer Manufacturer to Produce High-Performance Transformer CoresLocation: Jiangsu, ChinaRecently, our company entered into a formal partnership with a well-known Philippine transformer manufacturer to jointly produce high-performance transformer cores. The

We'll add and launch some articals related to our products for your referenre. And we'll also pose some questions refer to the technology for our dicussion. Please be patient in the following days! Thanks and best regards.Wuxi Jiachen Power2018/12/25

The establishment of the company and the implementation of products are in response to the national and social energy conservation and emission reduction call, vigorously promote the implementation of green clean energy, in order to meet the needs of human society. The transportation is very conveni