Vector Group Of Transformer

 Step Up Transformer Vector Group

 

The vector group represents the phase difference between the primary side and the secondary side, which is introduced due to the specific configuration of the transformer winding connection. Before connecting two or more transformers in parallel, it is very important to determine the vector group of the transformers.

 

What Is Vector Group Of Transformer

Basically, the transformer connection group is used to find the arrangement of the high-voltage and low-voltage windings of a three-phase transformer. Three-phase transformers can have a variety of wiring methods, and the wiring method of the transformer is determined by its vector group.

 

The three winding transformer vector group depends on the following factors:

Removal of harmonics: The star winding of the three-phase transformer is used to reduce the third harmonic.

Parallel operation: In parallel operation, the vector group and polarity of all transformers should be the same.

 

Three-phase transformer windings can have multiple connections, and the winding connection determines the vector group of the transformer. The vector group represents the phase difference between the primary side and the secondary side, which is introduced due to the specific configuration of the transformer winding connections. Before connecting two or more transformers in parallel, it is very important to determine the vector group of the transformers. If two transformers with different vector groups are connected in parallel, there will be a phase difference between the secondary transformers, and a large circulating current will flow between the two transformers, which is very unfavorable.

 

Types Of Vector Group Of Transformer

The connection of all windings in a three-phase transformer is represented by vector group symbols. This symbol uses a numeric index to indicate the winding connection and its relative phase shift.

The numeric index of the vector group comes from the clock hour of the high voltage winding (1U) phase voltage pointer (2U) at 12 o'clock. The phase sequence of the system should be 1U, IV, 1W or R, S, T.

The following are the most common three-phase connections: Dd0, Dyn5, Dyn11, Yyn0, Yd1, Yd11, Dz0, Yz1, and Yz11.

 

Significance of Vector Group of Transformer

The star or delta windings of a three-phase transformer can be connected in six different ways. In order to perform parallel operation of transformers without looking at the winding connection, the manufacturer mentioned vector grouping of transformers to avoid accidental failures.

 

It also indicates how the windings of the transformer and the end connections of the windings are connected to the output terminals.

 

Yy0, Dd1, etc. are printed on the nameplate of the three-phase transformer vector group. Here Yy0 means that the windings are all star-connected, and the phase shift between the primary and secondary electromotive force is zero degrees. It belongs to the first group

In the same way, Dy1 means that the primary winding is delta connection, and the secondary winding is star connection, with a phase shift of -300, which belongs to the third group.

 

When transformers need to be operated in parallel, the vector group information is very important. For an isolation transformer, the arrangement of its internal connections is not important.

 

If the transformers meet the following conditions, they will operate in parallel satisfactorily,

1. The primary and secondary voltages are the same

2. The same tap ratio

3. The same percentage impedance, and,

4. Belong to the same vector group.

The windings of two transformers can be connected in star/star, but if one belongs to group 1 and the other group belongs to group 2, it cannot be operated in parallel unless the internal wiring of the secondary winding of one of the transformers is changed.

 

Transformer Vector Group Calculation

The representation method of the connection group of the transformer is: uppercase letters indicate the connection mode of the primary side (or primary side), and lowercase letters indicate the connection mode of the secondary side (or secondary side). Y (or y) is star connection, D (or d) is delta connection. The number uses clock notation to indicate the phase relationship between the primary and secondary side line voltages. The primary side line voltage phasor is used as the minute hand, fixed at the 12 o'clock position of the clock, and the secondary side line voltage phasor is used as the hour hand.

There are 4 basic connection types for transformer wiring: "Y, y", "D, y", "Y, d" and "D, d". Our country only uses "Y, y" and "Y, d". Since there are two types of Y connection with neutral line and without neutral line, without neutral line, no symbol is added, and with neutral line, the letter n is added after the letter Y.

 

1. Use the phase voltage vector diagram to draw the wiring diagram of Y/△ connection

First draw the three-phase voltage vectors A, B, and C of the primary side, using the primary side A-phase voltage as the reference, and rotate clockwise to the required connection group.

 

2. Use the phase voltage vector diagram to identify the connection group of Y/A connection

 

3. Use the phase voltage vector diagram to draw the wiring diagram of the △/Y connection

First draw the three-phase voltage vector diagram of the secondary side a, b, and c, and take the secondary side a-phase voltage vector as the reference, rotate counterclockwise to the required connection group, and then draw the wiring diagram of the group according to this vector diagram .

 

4. Use the phase voltage vector diagram to identify the connection group of △/Y connection

First draw a vector diagram based on the three-phase voltage of the secondary side a, b, and c, and then according to the connection of the primary side winding, just draw the A phase on the secondary side vector, and rotate the primary side A phase clockwise to the secondary side. What is the angle between the side a phase, you know which group the △/Y wiring diagram belongs to.

 

Transformer Vector Group Selection Guide

The transformer vector group depends on

Eliminate harmonics:

Dy connection-y winding eliminates the 3rd harmonic to prevent reflections on the triangle side.

 

Parallel operation:

All transformers should have the same vector group and winding polarity.

Ground fault relay: Dd transformer has no neutral wire. To limit ground faults in such systems, we can use a sawtooth winding transformer to create a neutral wire together with a ground fault relay.

 

Non-linear load type:

The system has different types of harmonic and nonlinear loads. For example, we can use Dyn11, Dyn21, Dyn31 to configure the furnace temperature, VFDS, etc., which is 30 degrees. The voltage deviation makes the third harmonic in the power supply system zero.

 

Transformer application type:

Generally used for power output transformers, that is, delta wiring on the generator side and star wiring on the load side. For imported transformers with power output, that is, in power transmission applications, some people may prefer star-connected transformers, because this can avoid generator-side grounding transformers and save neutral wire insulation. Most systems operate in this configuration. It may be less harmful than operating the delta system incorrectly. The Yd or Dy connection is the standard connection for connecting all units to the generator. There are many factors related to the transformer connection that may be useful for designing the system, so the application of these factors determines the best choice of the transformer.

 

If you want to know more advantages of dyn11 transformer, please vsit our website.

 

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10kv, 35kv Three Phase on Load Tap Changer Transformer

 1. Brief Description

SZ11 series on load tap changing transformer is an upgraded product developed based on S11 series oil-immersed transformer. The voltage fluctuation and load change of power grid lead to fluctuation of output voltage of transformer during the running. If the voltage is too high or too low, the electric equipment will fail to work normally and even be burnt, and the insulation and efficiency of the transformer will be influenced. To ensure the variation of the output voltage within a reasonable range, voltage regulation is necessary. The product may operate the on-load tap changer manually or automatically to regulate the voltage when it is loaded, or realize remote voltage control through a controller.

 

2. Application Scope

The product applies to the users who require stable voltage and the voltage fluctuation of power grid is big.

 

3. Model Description

 

4. Standards

GB 1094.1, GB 1094.2, GB 1094.3, GB 1094.5,

IEC 60076-1:2000,IEC 60076-2:1993, IEC 60076-3:2000, IEC 60076-5:2006,GB/T 6451,GB/T 20052,etc

 

GB 1094.1, GB 1094.2, GB 1094.3, GB 1094.5,

IEC 60076-1:2000, IEC 60076-2:1993, IEC 60076-3:2000, IEC 60076-5:2006,

GB/T 6451, GB/T 20052, etc

 

5. Normal Service Conditions

Height above sea level: Not greater than 1,000m;

Ambient temperature: Maximum temperature: +40ºC;

Maximum daily average temperature: +30ºC;

Maximum annual average temperature: +20ºC;

Minimum outdoor temperature: -25ºC;

Installation environment: ground acceleration caused by earthquake: ag<2m/s

 

6. Features

(1) On-load voltage regulation is possible, thus providing users with stable voltage output.

(2) The low voltage adopts foil winding, thus enhancing the ability of the transformer to withstand the sudden short circuit; as the low voltage adopts copper foil winding, the electric field distribution of transformer is uniform. The low-voltage inner frame adopts formed hard paper tube, while the high-voltage outer half lap is wound with tasteless glass adhesive tape layer by layer. The compression pad adopts the laminated wood, thus enhancing the mechanical strength of the transformer. The transformer uses vacuum oil filling, which may totally eliminate the bubble in the coil, so as to improve the overall ability of the transformer to withstand the sudden short circuit.

(3) The tank rim adopts stainless steel bolts, with beautiful appearance.

(4) The sealing elements adopt formed parts, with the sealing reliability of the transformer enhanced.

 

Company Profile

Yuebian Electric Co., LTD is one of professional chinese transformer manufacturers engaged in power transformer up to 35kv and other electrical equipment. For instance, amorphous alloy power transformer, dry type transformer, oil-immersed transformer, with type, combined transformer substation, high and low voltage complete switchgear, rectifier transformer, electric furnace transformer, mining and another special purpose transformer. After nearly 10 years of development, Yuebian Electric has now become one of the major suppliers of Chinese state grid and the southern power grid.

 

Yuebian electric is located in Yueqing City, Zhejiang Province. As the forefront of reform and opening up, Yueqing provides us convenient traffic conditions. Our Industrial park covers an area of 20000 square meters, and the annual design production capacity is almost 300 million dollars. The modern garden-like factory has several functions, for example, production, technology development, staff living, learning, and entertainment. Hereinto, production plant owns 2 spacious and bright body building, 11 workshops, and more than 260 sets of advanced production and testing instruments, which guarantee the high quality of our products; Perfect function design of the complex and the r&d center adopt ERP management system which provide an advanced platform for e-commerce, operations management, and the product innovation; At the same time, our quiet and graceful staff living area provides employees with a comfortable living environment which owns dine, entertainment, information, learning, and other functions

Currently, Yuebian electric has more than 30 senior engineering and technical talents, including 5 senior engineers. The strong technical force provide us with effective guarantee about product research and development. The company has got the certification of ISO9001:2008 quality management system.

The Basic Components of The Transformer

 Transformer components include the body of (core, the winding, insulation, lead), transformer oil, fuel tank and cooling devices, pressure devices, protective devices (moisture, safety airways, gas relay, conservator and temperature measuring devices) and bushing.

 

1. Core

 

Core transformer in the main part of the magnetic circuit. Usually it consists of a high silicon content, thickness, respectively 0.35mm \ 0.3mm \ 0.27mm, the surface coated with insulating paint hot or cold rolled silicon steel sheet piled up.

 

Iron legs and cross piece into two parts, legs sheathed with windings; cross-piece is closed magnetic purposes.

 

The basic form of the core structure determined formula shell two.

 

2. Winding

 

It is part of the transformer winding circuit, which is double insulated flat wire or silk bag enamelled round wire wound into.

 

If you want to know more types of distribution transformer parts, please visit our website.

 

In our electrical transformer factory, we can provide variours oil transformer for sale with reasonable prices, more details, please leave us a message.

Queensway Substation To Receive Three New Power Transformers

 Uganda: queensway tank lines substation upgrade project on Entebbe Road in Kampala, Uganda is on due course with over 45% of the construction works complete and all equipment already delivered to the site.

 

The upgrade project includes installation of three transformers of 40 MVA, 132/33 kV each, which will provide a 17% increase in capacity to electricity delivered to the city centre, reports New Vision.

 

The

electrical substation

is projected to be commissioned in March 2017.

 

As one of the top electrical transformer manufacturers, we can provide different kinds of electrical transformer for sale, if you are interested, please leave us a message.

High Overload Oil-Immersed Amorphous Alloy Transformer

 High Overload Oil-Immersed Amorphous Alloy Transformer

 

1. Brief Description

The seasonal variation, personal mobility, and the difference of power consumption of residents at different time periods of day and night lead to big load fluctuation of power distribution network of China, the capacity of distribution transformer doesn't match the power demands, the specific transformers of general enterprises run at no load or at light load in over 70% of the time, and the common transformers of residents run at no load or at light load in over 80% of the time, resulting in high loss of transformer.

 

To address such situation, the Company develops the high-overload oil-immersed transformer. The insulating material of this new transformer reaches the standard of insulation class B and higher. On the basis of normal temperature rise requirements, this new transformer satisfies staged continuous operation for 6h at 1.5 multiples of rated capacity (3h respectively at load rising and dropping stages), 3h at 1.75 multiples of rated capacity (1.5h respectively at load rising and dropping stages), and 1h at 2.0 multiples of rated capacity, without affecting the normal service life of transformer. The temperature rise of high-overload distribution transformer satisfies class-F insulation limit value. Meanwhile, according to the core material, this new transformer can be classified into the high-overload oil-immersed transformer with amorphous alloy core and the high-overload oil immersed transformer with the core made of silicon steel sheet.

 

2. Application Scope

The product has been widely applied in new and reconstruction projects of urban and rural power grids, and is especially suitable for the areas where the seasonable fluctuation of power consumption is big, the difference of power consumption at day and night is big and the daily maintenance is difficult. As the transformer adopts fully sealed structure and avoids contact with the air, it may run in the humid environment and is the ideal power distribution equipment for urban and rural power distribution network.

 

3. Model Description

 

4. Standards:

GB1094.1, GB1094.2, GB1094.3, GB1094.5,

IEC 60076-1:2000, IEC 60076-2:1993, IEC 60076-3:2000, IEC 60076-5:2006,

GB/T 6451,etc

 

GB1094.1, GB1094.2, GB1094.3, GB1094.5,

IEC 60076-1:2000, IEC 60076-2:1993, IEC 60076-3:2000, IEC 60076-5:2006,

GB/T 6451, etc

 

5. Normal Service Conditions

Height above sea level: Not greater than 1,000m;

Ambient temperature: Maximum temperature: +40ºC;

Maximum daily average temperature: +30ºC;

Maximum annual average temperature: +20ºC;

Minimum outdoor temperature: -25ºC;

Installation environment: ground acceleration caused by earthquake: ag<2m/s

 

6. Features

(1) The product may overload at double the rated capacity for 1h, at 1.75 multiples of rated capacity for 3h and 1.5 multiples of rated capacity for 6h while ensuring normal service life of the transformer.

(2) The low voltage adopts foil winding, thus enhancing the ability of the transformer to withstand the sudden short circuit; as the low voltage adopts copper foil winding, the electric field distribution of transformer is uniform. The low-voltage inner frame adopts formed hard paper tube, while the high-voltage outer half lap is wound with tasteless glass adhesive tape layer by layer. The compression pad adopts the laminated wood, thus enhancing the mechanical strength of the transformer. The transformer uses vacuum oil filling, which may totally eliminate the bubble in the coil, so as to improve the overall ability of the transformer to withstand the sudden short circuit.

(3) The tank rim adopts stainless steel bolts, with beautiful appearance.

(4) The oil tank adopts the fully sealed tank, thus isolating the transformer oil from the air, and slowing down the aging of transformer oil. The sealing elements adopt formed parts, with the sealing reliability of the transformer enhanced.

 

Company Profile

Yuebian Electric Co., LTD is a professional electrical manufacturer engaged in power transformer up to 35kv and other electrical equipment. For instance, amorphous alloy power transformer, dry-type transformer, oil-immersed transformer, with type, combined transformer substation, high and low voltage complete switchgear, rectifier transformer, electric furnace transformer, mining and other special purpose transformer. After nearly 10 years of development, Yuebian Electric has now become one of the major suppliers of Chinese State Grid and southern power grid.

 

As one of oil transformer manufacturers, Yuebian electric is located in Yueqing City, Zhejiang Province. As the forefront of reform and opening up, Yueqing provides us convenient traffic conditions. Our Industrial park covers an area of 20000 square meters, and the annual design production capacity is almost 300 million dollars. The modern garden-like factory has several functions, for example production, technology development, staff living, learning and entertainment. Hereinto, production plant owns 2 spacious and bright body building, 11 workshops, and more than 260 sets of advanced production and testing instruments, which guarantee the high quality of our production; Perfect function design of the complex and the r&d center adopt ERP management system which provide an advanced platform for e-commerce, operations management, and the product innovation; At the same time, our quiet and graceful staff living area provides employees with a comfortable living environment which owns dine, entertainment, information, learning, and other functions

 

Currently, Yuebian electric has more than 30 senior engineering and technical talents, including 5 senior engineers. The strong technical force provide us with effective guarantee about product research and development. The company has got the certification of ISO9001:2008 quality management system.

 

If you are interested in our products, contact us now!