Product Details
Amorphous alloy transformers SC(B)H15 and S(B)H15 series
My company has meticulously developed the SC(B)H15 series dry-type amorphous alloy transformer and the S(B)H15 series oil-immersed amorphous alloy transformer. In the design
Key words:
Amorphous alloy transformers SC(B)H15 and S(B)H15 series
Category:
Hotline:
Description
Amorphous alloy core transformers use a new type of magnetic material—amorphous alloy—to make the core. Compared to traditional silicon steel sheet core transformers, their no-load losses (the power loss measured on the primary side when the secondary side is open) are reduced by about 75%, and the no-load current (the primary side still has a certain amount of current when the secondary side is open, and this part of the current is called the no-load current) is reduced by about 80%, greatly reducing the operating cost of the transformer. They are currently the most ideal energy-saving distribution transformers, especially suitable for areas with lower load rates, such as city and rural grid upgrades and development in various provinces and cities. This is especially significant in today's society, which advocates for resource conservation.
Our company has timely and carefully developed the SCH15 series dry-type amorphous alloy transformers and the SH15 series oil-immersed amorphous alloy transformers. In the design, we focus on ensuring the reduction of no-load losses. In the product structural layout, in addition to considering that the amorphous alloy core itself is not affected by external forces, we also accurately and reasonably select the characteristic parameters of the amorphous alloy during calculation, manufacturing high-quality products that meet the needs of different users, and have received unanimous praise from users.
Main Technical Parameters:
Capacity: 30KVA~2500KVA Voltage Level: 35KV and below
Regulation Range: ±2*2.5%, ±5% Frequency: 50Hz
Phase: Three-phase
Insulation Class: Class A, Class F, or Class H
Other parameters are in accordance with national standards or meet the user's special design requirements
Related Solutions
A novel parallel reactor is connected to the power system in a parallel configuration to compensate for capacitive reactive power in the transmission and distribution system.
The smoothing reactor is connected in series with the DC high-voltage line, acting as both part of the converter station and a back-to-back interconnection between different
The converter reactor is located between the flexible DC converter valve and the connecting transformer. It can be installed on either the DC side or the AC side of the converter valve.
Consulting
We will contact you within one working day. Please pay attention to your email.
Address: 902-903, Building 1, Yard 15, Xinya Street, Daxing District, Beijing, China
135-8888-9999
Feedback
Please fill out this form and we will contact you on the next business day.