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Our professionals of CHU LEI ELECTRIC CO., LTD. have vast industry knowledge which helps them in providing the clients with high quality High Efficiency Transformer that are designed in compliance with international quality standards in Taiwan . We source these products only from reliable and trusted vendors. Each of our products undergoes a stringent quality test under the supervision of the experienced and skilled team of quality controllers.

High Efficiency Transformer

CHU LEI ELECTRIC CO., LTD.
To find and shop the best High Efficiency Transformer, you need to know about the highest quality of manufacturer, supplier, wholesaler, distributor, OEM and ODM from a factory in Taiwan
2-1
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999999999 http://schema.org/InStock USD 2020-12-31
90out of 100based on 100user ratings
HV Amorphous Cast Resin Dry Type Transformers (High Efficiency Series)   Specification Scope of application This specification applies to cast dry type transformers with iron cores made of Amorphous Alloy. According to standards and regulations The design, manufacture and test of the transformer must comply with the relevant sections of the latest edition of the standards and regulations listed below. National Standards of the Republic of China (CNS 13390) International Standard Specification (IEC 60076) Applicable environment The normal use of the transformer is as follows: a. The maximum ambient temperature is below 40 ℃ b. Below 1000 meters above sea level c. Insulation type : F Class Type Cast resin dry type‧AN or AN/AF‧Indoor  Quota a. Number of phases: single phase / three phase b. Frequency: 50Hz / 60Hz c. Capacity: below 3000kVA d. Rated voltage: 36kV / 24kV / 12kV and below e. Primary tap voltage: according to customer needs f. Tap range: ±2.5%, ±5% g. Material: copper-copper, copper-aluminum, aluminum-aluminum h.Rating: IP00 Polarity or phase sequence a.Single-phase transformer is depolarized b.Three-phase transformer wiring: The primary side is a delta connection, and the secondary side is a Y connection. The primary side voltage is 30 degrees ahead. Symbol: Dyn1 The primary side is a delta connection, and the secondary side is a delta connection. The voltage is in the same phase sequence. Symbol: Dd0 The primary side is Y connection, the secondary side is delta connection, the primary side voltage is 30 degrees ahead, symbol: Yd1 The primary side is Y connection, the secondary side is Y connection, the voltage is in phase sequence, symbol: Yyn0 (Primary side is Y connection, its neutral point is not drawn) Core material and structure The core is made of 3-phase 3-pin amorphous alloy magnetic material. The overall structure of each transformer core and its clamps are very strong and solid. The clamps have a solid structure and can evenly distribute the pressure. The vibration of any process during operation ensures that the noise and vibration of the transformer during operation are minimized. Winding a.High-voltage and low-voltage coils are made of copper or aluminum conductors for electrical use. The insulation of the high-voltage coils is made of special glass fiber and reinforced resin. b.Partial discharge test is performed on the molded high voltage coil to confirm that it does not contain any vacuum cavity & air void, so that it has the best electrical and mechanical characteristics. c.Low-voltage windings can be wound with the same design as high-voltage windings or with Prepreg sheet conductors, and sealed with epoxy resin. d.The central shaft tube of the high and low voltage coil and the upper and lower clamps are fixed with an elastic resin support to absorb the expansion and contraction of the coil. e.Ventilation air ducts should be left between high and low voltage coils or each coil to ensure good heat dissipation. f.High and low voltage windings need to be oisture-proof,non-flammable, non-combustible, and self-extinguishing. g.High and low voltage wiring connectors:Except for the lead terminal, the live part of the winding on the high voltage side is covered with heat-resistant insulation, and no live part except the lead terminal is exposed.The connector of the low-voltage side winding needs to be led out by a copper plate. h.Tap switching position:The high-voltage side winding of the transformer must be equipped with taps that can adjust the voltage under no-voltage and no-current conditions, and the distance between each tap must be equal.This tap is led out of the winding surface so that the tap voltage can be adjusted after switching off the power (without voltage). Cooling device The standard cooling fan motor provided by our company is single-phase 60Hz-220V, and its control power is single-phase 60Hz-220V. The power supply is provided by the customer, but it has been specified and listed in the owner's specification. When they are different, they shall be determined according to the required number of phases, voltage or after consultation between the two parties. Nameplate The following items are marked in Chinese (or English) on the nameplate: (1) Type (2) Phase sequence (3) Number of phases (4) Wiring diagram (5) Rated capacity (kVA) (6) Manufacturing number (7) Rated frequency (Hz) (8) Approximate weight (kg) (9) Rated voltage (10) Tap voltage (11) Base Impact Insulation Level (BIL) (12) Ambient temperature (13) Coil temperature rise (14) Manufacturer name (15) Impedance voltage (16) Date Transformer test a.Transformer noise Transformer design and manufacturing consider reducing the noise and vibration generated by the transformer. For its reference value, please refer to the characteristics table. b.Test items in the transformer plant: Before leaving the transformer, the following in-plant tests must be performed and a test report submitted. 1. Measurement of insulation resistance 2. Voltage ratio test 3. Polarity or phase sequence test 4. No-load (iron) damage test 5. Load (copper) loss test 6. No-load current test 7. Impedance test 8. Induced voltage test 9. Power frequency withstand voltage test Factory Certification ISO 9001 , ISO 14001, OHSAS 18001, UL 1561, TAF17025 Laboratory Warranty One year warranty Delivery method  Domestic - truck up to the ground / Foreign – CIF Product features a.Made of high magnetic permeability and low hysteresis amorphous alloy material, which greatly reduces iron loss. b.The coil structure is improved, and the surge protection design with sufficient shock wave resistance is provided. c.Anti-harmonic design design ensures that system harmonic effects do not cause overheating or other damage. d.The efficiency is improved compared with the general type, achieving energy-saving and environmentally friendly functions. e.Received the green environmental protection stamp of the Environmental Protection Agency of the Executive Yuan and super power saving. f.customized products.
CHU LEI ELECTRIC CO., LTD.
To find and shop the best High Efficiency Transformer, you need to know about the highest quality of manufacturer, supplier, wholesaler, distributor, OEM and ODM from a factory in Taiwan
2-2
none
999999999 http://schema.org/InStock USD 2020-12-31
90out of 100based on 100user ratings
HV Amorphous Oil Immersed Transformers (High Efficiency Series)   Specification Scope of application This specification applies to oil-immersed, high-efficiency transformers with iron cores made of Amorphous Alloy. According to standards and regulations The design, manufacture and test of the transformer must comply with the relevant sections of the latest edition of the standards and regulations listed below. National Standards of the Republic of China (CNS 598, CNS 599) American National Standard (ANSI / IEEE C57.12) International Standard Specification (IEC 60076) Applicable environment The normal use of the transformer is as follows: a. The maximum ambient temperature is below 40 ℃ b. The average daily temperature is below 35 ℃ c. Below 1000 meters above sea level Type Double winding‧Amorphous oil-immersed‧Indoor / outdoor Quota a. Number of phases: single phase / three phase b. Frequency: 50Hz / 60Hz c. Capacity: below 3500kVA d. Rated voltage: 36kV / 24kV / 12kV and below e. Primary tap voltage: according to customer needs Polarity or phase sequence a.Single-phase transformer is depolarized b.Three-phase transformer wiring: The primary side is a delta connection, and the secondary side is a Y connection. The primary side voltage is 30 degrees ahead. Symbol: Dyn1 The primary side is a delta connection, and the secondary side is a delta connection. The voltage is in the same phase sequence. Symbol: Dd0 The primary side is Y connection, the secondary side is delta connection, the primary side voltage is 30 degrees ahead, symbol: Yd1 The primary side is Y connection, the secondary side is Y connection, the voltage is in phase sequence, symbol: Yyn0 (Primary side is Y connection, its neutral point is not drawn) Core material and structure a.Transformer core should be made of ultra-low iron loss amorphous alloy produced by Japan Hitachi Metals Co., Ltd., with Lap-Joint Core structure to obtain ultra-low iron loss, low exciting current and low noise characteristic. b.The design of the core clamp must strive to be solid and not subject the core to any stress in order to ensure excellent core characteristics. The strength of the clamp must be able to withstand the vibrations during transportation, installation and normal operation, and it can suppress and reduce the occurrence of noise. Winding a.The winding has a surge-proof design to provide the best protection for shock waves. The coils, winding insulation and lead-out wires are firmly fastened, and can withstand the stress of any group of external wiring connectors when the rated voltage is repeatedly short-circuited. The winding structure is properly arranged to make the temperature difference of the insulating oil between the windings to avoid local overheating. In order to avoid the loosening of the transformer windings due to shrinkage due to heat during the operation, the windings are contracted by hot air and vacuum drying during the manufacturing process and fully tightened. After the assembly of the core and the coil is completed, vacuum drying and vacuum oiling are performed to ensure the quality of the transformer. b.High-voltage conductors use high-conductivity, high-temperature-resistant enamelled copper or aluminum round wires or corner wires, or copper or aluminum corner wires covered with high-temperature-resistant insulation materials to obtain the best interturn insulation and the lowest conductor loss. c.The design of the high-voltage coil is a multi-layer winding method, so that the external surge voltage is uniformly and linearly distributed to obtain the best impulse voltage resistance. d.The voltage lead-out position of the tap of the high-voltage coil should be designed in the middle section of the coil to avoid the high potential area at the coil end and properly handle to ensure the insulation strength of the lead-out wire. e.Low-voltage conductor adopts high-conductivity copper or aluminum sheet conductor, so that no unbalanced ampere turns are generated between the coils, the short-circuit axial mechanical force is minimized, the thermal conductivity is optimal, and the coils will not cause hot spots. f.The insulation layer of resin-coated electrical insulation paper for temperature rise of 65 ℃ is used between the winding layers to obtain the best voltage-resistant insulation ability, the best short-circuit resistance mechanical strength and short-term overload capacity. g.The setting of the coil current density must be able to fully meet the requirements of the short-circuit test to avoid overheating the coil temperature when an external short circuit occurs. Scope of application a.The transformer housing can withstand a pressure 25% higher than the maximum pressure when the oil degradation prevention device is running without permanent deformation. The upper cover is bolted or welded with appropriate manholes or hand holes. All joints and joints are tight and leak-free. A guide post is provided in the casing, which is convenient for the maintenance of the casing and prevents the core and windings from being displaced due to transportation or vibration. There is enough space between the core, windings and the bottom of the shell to allow the accumulation of residues. b.The transformer base has considerable mechanical strength so that the transformer can slide c.All padding surfaces have pad support to prevent the pad from sliding. d.The transformer is equipped with a radiator that is sufficient for self-cooling rating. The material selection, design and manufacturing and corrosion prevention of the heat sink are especially prudent in order to withstand the severe corrosion that may be encountered. e.According to the size of the transformer and the actual needs of the transformer, the manufacturer provides appropriate accessories, such as thermometers, oil level meters, etc. The types and specifications of the accessories must comply with the requirements of CNS 598. If customers have other requirements for accessories, It is agreed between the buyer and the seller. Cooling device a.The cooling device with self-cooling and forced-air cooling double-rated transformers is equipped with control equipment, cooling fans, motors, radiators and piping, etc. as required. The cooling fan is a horizontal axis fan, and its start and stop are automatically controlled by the temperature of the insulating oil via the temperature relay. Automatic and manual operation devices are located in the junction box on the transformer tank. b.The control and signal circuits of all cooling devices are connected to the terminal board in the transformer terminal box. c.The standard cooling fan motor provided by our company is single-phase 60Hz-220V, and its control power is single-phase 60Hz-220V. The power supply is provided by the customer, but it has been specified and listed in the owner's specification. When they are different, they shall be determined according to the required number of phases, voltage or after consultation between the two parties. No-voltage tap changer The transformer is equipped with a voltage-free tap switching device for manual operation outside the casing. The three-phase winding taps are operated simultaneously from the outside by a single handle. The operating device is provided with a position indicator so that the tap voltage position can be clearly and clearly marked. Casing characteristics Insulation distance: The minimum insulation distance in the air between the charging part of the bushing to the grounded metal part and the charging part of the bushing is specified as follows. Nameplate The marking content shall comply with the requirements of CNS 598, and its material shall be made of stainless steel. The following items are marked in Chinese (or English) on the nameplate: (1) Type (2) Phase sequence (3) Number of phases (4) Wiring diagram (5) Rated capacity (kVA) (6) Manufacturing number (7) Rated frequency (Hz) (8) Approximate weight (kg) (9) Rated voltage (10) Oil volume (L) (11) Tap voltage (12) Base Impact Insulation Level (BIL) (13) Temperature rise (14) Manufacturer name (15) Impedance voltage (16) Date Coating treatment The transformer shell must be rust-proof and applied with phosphate film or sandblasting rust-proof treatment. The inner layer is coated with durable oil-based rust-resistant insulating white paint, and the outer layer is weather-resistant rust-proof paint. The outermost color is Taiwan Paint Association Color Card # 06 or designated by the customer. Transformer oil The transformer must be filled with a normal amount of insulating oil. The quality of the insulating oil should meet the requirements of CNS 1326 and CNS 3070. Transformer test a.Voltage ratio test Add the rated voltage of the rated frequency to any coil, use a voltmeter to measure the voltage ratio of each connector, or use T.T.R (transformer turns ratio tester) to measure the voltage ratio of each connector. The error is within ± 0.5%. b.Polarity test Standard transformer comparison methods or other applicable methods of testing transformer polarity meet the requirements of Section 6. c.Induced voltage test For single-phase double-sleeve and three-phase transformer induced voltage tests, apply a test voltage twice the rated voltage to any coil. The test pressure time is: Test pressing time (second) = 120X rated frequency / test frequency d.Open and short test The open-circuit test and short-circuit test can be performed at normal temperature. When the measured no-load current, no-load loss, load loss, impedance voltage, voltage adjustment rate, and efficiency are converted to 75 ° C, they should meet the values in the characteristic table of this specification. e.Insulation compressive strength test Except that the single-phase single-sleeve side does not perform the 60Hz withstand voltage test, each coil of other various transformers is pressurized according to the value specified in the table without any abnormality. (As shown below) f.Temperature rise Winding: The highest winding temperature rise measured by the resistance method must not exceed 65°C. Insulating oil: The highest oil temperature rise measured by the thermometer method must not exceed 60°C. g.Transformer noise Transformer design and manufacturing consider reducing the noise and vibration generated by the transformer. For its reference value, please refer to the characteristics table. h.Test items in the transformer plant: Before leaving the transformer, the following in-plant tests must be performed and a test report submitted. 1. Measurement of insulation resistance 2. Voltage ratio test 3. Polarity or phase sequence test 4. No-load (iron) damage test 5. Load (copper) loss test 6. No-load current test 7. Impedance test 8. Induced voltage test 9. Power frequency withstand voltage test Factory Certification ISO 9001 , ISO 14001, OHSAS 18001, UL 1561, TAF17025 Laboratory Warranty One year warranty Delivery method Domestic - truck up to the ground / Foreign - CIF Product features a.Ultra-low iron loss characteristics The iron loss of the amorphous alloy is reduced by about 70-80% compared with the conventional traditional steel sheet transformer The iron loss of amorphous alloy is about 30-40% lower than that of high-grade silicon steel transformer. Therefore, the amorphous transformer has the characteristics of ultra-low iron loss. b.Ultra-high efficiency transformer characteristics Amorphous transformers have excellent coil structure, miniaturized design and manufacturing, making the coil load loss smaller than those of ordinary silicon steel sheet transformers, coupled with ultra-low iron loss (no load loss) characteristics, so the overall transformer loss The load loss and the sum of the load losses are much lower than that of ordinary steel sheet transformers, so the efficiency of the amorphous transformer is extremely high. c.Environmental protection, energy saving, fast return on investment Amorphous transformers are extremely efficient with extremely low total losses. Therefore, when operating, it can save a lot of electricity costs every year, and the investment benefit is quite high. Due to power saving, the country's power generation can be reduced, and SO2 and CO2 exhaust gases emitted by energy-saving and power plants can be greatly reduced, reducing environmental pollution and greatly contributing to environmental protection. d.Low operating temperature, small insulation degradation and long transformer life Amorphous transformers have extremely low losses, less heat generation, slow temperature rise, and good load resistance. Therefore, the overall transformer has low operating temperature, slow insulation degradation, high reliability, and long transformer life.
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High Efficiency Transformer

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