EI41 Power Transformer Silicon Steel Sheet AC/DC Electric Audio
Single Phase
1.Product Description
1. Materials
--Core material: High permeability silicon steel sheets are usually
used. This material has the characteristics of low hysteresis loss
and low eddy current loss, which can effectively conduct magnetism,
enabling transformers to efficiently convert energy during
operation, reduce iron core heating, and improve transformer
efficiency and stability.
--Winding material: High purity copper material is generally used.
Copper has good electrical and thermal conductivity, which can
reduce the resistance of windings, minimize the loss of electrical
energy during transmission, improve the electrical performance of
transformers, and also facilitate heat dissipation, ensuring the
reliability of transformers during long-term operation.
2. Advantages
--Compact structure: The EI type iron core structure design is
relatively compact, which can achieve high power conversion in a
relatively small space, save installation space, and is suitable
for electronic devices and electrical systems with high space
requirements.
--Stable performance: Due to the use of high-quality iron core and
winding materials, as well as reasonable structural design, the
EI41 Power Transformer has good electrical performance and
stability, and can maintain relatively stable output voltage and
current under different working conditions, with strong
anti-interference ability.
--High cost-effectiveness: The production process of this
transformer is relatively mature, and the material cost is
relatively low. While meeting performance requirements, it has a
high cost-effectiveness and can provide users with an affordable
power conversion solution.
3. Power characteristics
--Moderate power range: The EI41 Power Transformer is suitable for
applications in the medium power range and can generally meet power
conversion requirements of tens to hundreds of watts. The specific
power size depends on factors such as the size of the iron core,
the number of turns of the winding, and the wire diameter.
--Efficient power conversion: Within its designed power range, it
can achieve high conversion efficiency, usually reaching over 80%
-90%. This means that it can effectively convert input electrical
energy into output electrical energy, reduce energy loss, and lower
operating costs.
--Good overload capacity: It has a certain overload capacity and
can withstand loads higher than the rated power in a short period
of time, providing reliable power support for equipment during
startup or sudden load changes. However, it is not recommended to
operate under long-term overload to avoid affecting the life and
performance of the transformer.
2.Application
| Application Areas | Advantages |
| Consumer Electronics (e.g., TVs, Audio Systems) | - Compact Size: The EI41 structure allows for a space - saving
design, fitting well into the limited interior space of consumer
electronics. - High Efficiency: With low - loss silicon steel cores
and high - conductivity copper windings, it efficiently converts
power, reducing energy waste and extending battery life in portable
devices or lowering electricity consumption in home appliances. -
Stable Voltage Output: Maintains a stable output voltage, which is
crucial for the proper operation of sensitive electronic components
in consumer electronics, ensuring high - quality audio and video
performance. |
| Industrial Control Equipment (e.g., Automated Production Lines,
Industrial Robots) | - Reliable Performance: Can withstand harsh industrial
environments, including electrical interference, mechanical
vibrations, and temperature variations. Its robust construction and
high - quality materials contribute to long - term, trouble - free
operation. - Good Overload Capacity: Has the ability to handle
short - term overloads, which is common during the startup of
industrial equipment or when there are sudden changes in load. This
ensures the continuous operation of industrial processes without
interruption. - Precise Power Conversion: Accurately provides the
specific voltage and current required by different parts of
industrial control systems, enabling precise control of motors,
sensors, and other components, thus improving the overall
efficiency and productivity of industrial operations. |
| Communication Equipment (e.g., Routers, Communication Base
Stations) | - Low Electromagnetic Interference (EMI): Through optimized winding
techniques and proper shielding, it minimizes EMI generation. This
is essential for communication equipment as it prevents
interference with sensitive communication signals, ensuring clear
and stable data transmission. - High - Stability Power Supply:
Ensures a stable power supply to communication equipment, which is
critical for the continuous and reliable operation of communication
networks. Even under fluctuating input voltages, it can maintain a
consistent output, reducing the risk of network outages. - Compact
and Lightweight Design: Facilitates easy installation in
communication equipment, especially in base stations where space is
often limited. Its relatively small size and light weight also make
it convenient for transportation and deployment. |
| Small - Scale Power Adapters | - Cost - effective: With a mature production process and relatively
low - cost materials, it offers a cost - effective solution for
power conversion in small - scale power adapters. - High Efficiency
in Low - Power Applications: Demonstrates high conversion
efficiency even in low - power scenarios, making it energy - saving
for charging small electronic devices such as smartphones, tablets,
and wearable devices. - Easy to Integrate: Its compact and
standardized design allows for easy integration into various small
- scale power adapter products, simplifying the manufacturing
process and reducing development time. |
