Scb High Frequency Three-Phase Dry Type Transformer

Product Details
Customization: Available
Application: Power, Electronic, Rectifier
Phase: Three
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Registered Capital
16.52 Million USD
Plant Area
35000 square meters
Management System Certification
ISO9001:2015, ISO14001:2015, ISO45001:2018 certificate
  • Scb High Frequency Three-Phase Dry Type Transformer
  • Scb High Frequency Three-Phase Dry Type Transformer
  • Scb High Frequency Three-Phase Dry Type Transformer
  • Scb High Frequency Three-Phase Dry Type Transformer
  • Scb High Frequency Three-Phase Dry Type Transformer
  • Scb High Frequency Three-Phase Dry Type Transformer
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  • Overview
  • Product Description
  • Overview & features
  • Dimensions & Schematic
  • Technical parameters
Overview

Basic Info.

Model NO.
SC(B)9/10
Cooling Method
Dry-type Transformer
Winding Type
Two-winding Transformer
Certification
ISO9001, Ctqc
Usage
Distribution Transformer
Frequency Characteristics
Power Frequency
Shape of Core
Ring
Brand
Honle
Rated Capacity
30-2500kVA
High Voltage Rating
6-11kv
High-Voltage Tapping Range
±5%
Low Voltage Rating
0.4kv
Frequency
50/60Hz
Insulation Class
F Class
Enclosure
Cold-Rolled Steel Sheet or Stainless Steel Sheet
Material
Cast Resin,CRGO,Copper
Color
Red or Customized
Transport Package
Wooden Case
Specification
CTOC type tested
Trademark
HONLE
Origin
Zhejiang China Mainland
HS Code
85042100
Production Capacity
20000per Year

Product Description

Scb High Frequency Three-Phase Dry Type TransformerScb High Frequency Three-Phase Dry Type TransformerScb High Frequency Three-Phase Dry Type Transformer

Product Description

Model meaning

Scb High Frequency Three-Phase Dry Type Transformer


 

Overview & features


As the coils of resin-insulated dry-type transformer are encapsulated by the epoxy resin, they are nonflammable, fireproof, explosion-proof, maintenance-free, no pollution, small volume, and can be installed in the load center directly. Meanwhile, the scientific and reasonable design and casting technology enable the products to have lower discharge capacity, low noise and strong heat dissipation, they are able to run for a long time under 140% rated load under forced air cooling condition. Besides, the products are equipped with intelligent temperature controllers, have functions of trouble alarm, over-temperature alarm, over-temperature tripping and black box, can be connected with the computer through RS485 serial interface to realize centralized monitoring and control.
Due to the above features, our epoxy resin casting dry type transformers can be widely applied to power transmission and transformation systems in hotels, restaurants, airports, high-rise buildings, commercial centers, residential districts, and the severe environments such as underground railways, smelting, electric power plants, steamships, offshore oil-drilling platforms, etc.

Iron core
The iron core is made of imported cold-rolled silicon steel sheets with inclined joint structure, core limbs are bound by unidirectional weftless tape of class F. 
Surface of iron core is encapsulated with epoxy resin, which reduces the no-load noise, no-load current and core noise. 
Clamps and fasteners have gone through special surface treatment that further improves the product appearance quality. 

High-voltage winding 
High-voltage winding applies vacuum casting of stuffing epoxy resin which sharply reduces partial discharge capacity and enhances the electric strength of coils. The inside and outside of the winding is buildup with glass fiber grid overlay which strengthens the mechanical robustness of coils and product's short-circuit withstand capability, the coil will not split forever.

Low-voltage winding 
Low-voltage winding applies foil structure which solves the problem of axial helix angle when winds and make the ampere-turn of winding distribute evenly. Meanwhile, the coils adopt axial cooling duct to improve the heat dissipation. Between the layers of winding, it applies DMD epoxy resin preliminary immersed cloth and makes it whole solidification forming.

Manufacturing process

The coils are wound on high precision winding machine. We adopt foil type winding structure for low-voltage windings. Transformers of larger capacity are equipped with ventilating duct. It is vacuum drying, casting and solidification followed the winding, all processes are operated accord with the technological requirements under strict monitoring and may be regulated as appropriate. The precise manufacturing of casting ensures no bubble or cavity in coil, and gets high quality operation of transformer finally. 

Temperature control and air cooling systems
It adopts crossflow top-blow fan which is featured with low noise, high wind pressure and good looking, etc., it improves the safety and reliability of the operation of transformer.

Protective shell and outgoing bus 
The shell makes further protection for the transformer. For user's option, the grade of protection has IP20, IP23, etc. Shell materials include cold-rolled steel sheets, stainless steel sheets and so on for option. The low-voltage outgoing adopts standard outgoing bus, side outgoing and top outgoing are available, or design special outgoing modes for users.

Service conditions
A. Installation height: altitude shall not exceed 1000m; 
B.Waveform of source voltage is approximate to sine wave; 
C.Symmetry of multi-phase source voltage:

   connected voltage of multi-phase transformer should be symmetrical approximately.
D. Ambient temperature:
   Max temperature +40ºC
   Max daily mean air temperature: +30ºC 
   Max annual mean air temperature: +20ºC
   Min air temperature: -30ºC (applicable for indoor transformers)

 

Dimensions & Schematic

Rated capacity Installation dimension
(kVA) L W H C1 C2
30 580 405 600 300 300
50 620 475 730 300 350
80 900 500 820 450 450
125 970 500 890 450 450
160 1060 650 930 550 550
200 1100 650 985 550 550
250 1140 760 1070 550 550
315 1170 760 1130 660 660
400 1260 760 1155 660 660
500 1300 760 1190 660 660
630 1370 760 1220 660 660
800 1440 760 1225 660 660
1000 1480 920 1330 820 820
1250 1580 920 1480 820 820
1600 1660 920 1550 820 820
2000 1720 920 1710 820 820
2500 1820 920 1780 1070 1070
 

Technical parameters

Rated capacity Voltage combination Connection group   Loss (KW) No-load current  Short-circuit impedance  Weight (kg)
(kVA) HV(kV) High-voltage tapping range LV(kV) symbol No-load On-load(120°) (%) (%) Body weight  Weight with shell
30
6
6.3
6.6
10
10.5
11
 

 


±5%
±2×2.5%

0.4
 

 


Yyn0
Dyn11
0.22 0.75 3.2   4.0 220 250
50 0.31 1.05 2.8 360 410
80 0.42 1.46 2.6 450 190
100 0.45 1.67 2.4 540 580
125 0.53 1.95 2.2 630 670
160 0.61 2.25 2.2 745 795
200 0.70 2.67 2 850 910
250 0.81 2.92 2.2 1010 1065
315 0.99 3.67 1.8 1235 1295
400 1.10 4.22 1.8 1370 1430
500 1.35 5.17 1.8 1565 1625
630 1.51 6.22 1.6 1855 1930
630 1.46 6.31 1.6 6.0 1800 1875
800 1.71 7.36 1.6 2140 2215
1000 1.99 8.60 1.4 2535 2620
1250 2.35 10.26 1.4 3100 3190
1600 2.75 12.42 1.4 3705 3830
2000 3.74 15.30 1.2 4230 4380
2500 4.50 18.18 1.2 5230 5280
 

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