Step Up Transformer
Step-up transformers are a type of transformer that is used to increase the voltage of an electrical power supply. They are commonly used in power transmission and distribution systems, where high voltage is required to transport electrical power over long distances. The basic principle of operation of a step-up transformer is to increase the voltage of the input power supply by a fixed ratio. This is achieved by winding the secondary coil of the transformer with more turns than the primary coil. When an AC voltage is applied to the primary coil, a magnetic field is created that induces a higher voltage in the secondary coil. Step-up transformers are available in a wide range of sizes and capacities, depending on the application. They are commonly used in power plants and electrical substations to increase the voltage of the power supply before it is transmitted over long distances. They are also used in industrial settings, where high voltage is required for the operation of large machinery and equipment. The benefits of using a step-up transformer include reduced energy loss, improved energy efficiency, and reduced transmission costs. By increasing the voltage of the power supply, step-up transformers reduce the current required to transmit the same amount of power, which leads to reduced energy loss and improved energy efficiency. This results in lower operating costs and reduced carbon emissions. Overall, step-up transformers are critical components of the electrical power transmission and distribution system, and their design and construction are essential for ensuring the reliable and efficient delivery of electricity to consumers. They must be designed and constructed with high-quality materials and components to ensure optimal performance and long-term reliability
Warranty : 2years
Working Frequency : 50HZ
Feature : Easy To Install, Proper Working, Superior Finish
Input Type : .2 - .8 KV
Output Type : 6.6 KV - 33KV
...moreStation Transformer
Station transformers are a type of transformer that is used in electrical substations to step-up or step-down the voltage of the electrical power supply. They are critical components of the power distribution and transmission system, responsible for the safe and efficient delivery of electricity to consumers. Station transformers are typically located in electrical substations, where they are used to transform the voltage of the electrical power supply from the high voltage used in the transmission lines to the lower voltage used by consumers. They are available in a wide range of sizes and capacities, depending on the application. The design and construction of station transformers are critical to ensuring the safe and reliable operation of the electrical power supply system. Station transformers must be designed to withstand high levels of electrical stress and to operate under a wide range of operating conditions. The core and coil assembly of a station transformer is designed to minimize energy loss and reduce heat generation. The coils are wound to precise specifications to ensure efficient energy transfer, while the core is carefully designed to minimize hysteresis and eddy current losses. Station transformers are designed to meet a range of industry standards and regulations, including the National Electrical Code (NEC) and the International Electrotechnical Commission (IEC) standards. They are also subjected to rigorous testing and inspection to ensure that they meet the required performance and safety standards. Overall, station transformers are critical components of the power distribution and transmission system, responsible for the safe and reliable delivery of electricity to consumers. Their design and construction are essential to ensuring optimal performance and long-term reliability
Phase : Three
Frequency : 50hz
Production Power : 16KVA-5000KVA
...moreAmorphous Transformer
Amorphous core transformers are a type of transformer that use a core made of an amorphous metal alloy. This alloy is typically made of a combination of iron, boron, and silicon, and is characterized by its unique atomic structure, which lacks the ordered crystalline structure of conventional transformer core materials. The unique properties of amorphous metal alloys make them highly desirable for transformer core applications. The lack of crystalline structure in the amorphous metal allows for reduced magnetic core loss and improved energy efficiency. This makes amorphous core transformers highly efficient, resulting in lower energy consumption and reduced carbon emissions. The core and coil assembly of an amorphous core transformer is designed to minimize energy loss and reduce heat generation. The amorphous metal core is carefully designed to minimize hysteresis and eddy current losses, while the coils are wound to precise specifications to ensure efficient energy transfer. Amorphous core transformers are typically used in power distribution and transmission applications, where energy efficiency is critical. They are available in a wide range of sizes and capacities, from a few kilovolt-amperes (kVA) to several megavolt-amperes (MVA). The environmental benefits of amorphous core transformers are significant. By improving energy efficiency, amorphous core transformers reduce energy consumption and carbon emissions, leading to a more sustainable and environmentally friendly power supply system. Overall, amorphous core transformers are a highly efficient and environmentally friendly alternative to conventional transformers, and their use is becoming increasingly widespread in power distribution and transmission systems. Their design and construction are critical to ensuring optimal performance and long-term reliability
Phase : Single Phase and Three Phase
Frequency : 50Hz
Production Power : 5KVA-1000KVA
...moreServo Transformer
Servo stabilizers are electrical devices that are used to regulate and stabilize the voltage of an electrical power supply. They are typically used in areas where the input voltage fluctuates significantly, such as in areas with poor quality power supply or high electrical demand. The basic principle of operation of a servo stabilizer is to compare the input voltage to a reference voltage and adjust the output voltage accordingly. The servo stabilizer consists of a servo motor, which is connected to a voltage regulator, and a buck-boost transformer. The servo motor controls the voltage regulator, which adjusts the voltage on the output side of the transformer. When the input voltage drops below the reference voltage, the servo motor adjusts the voltage regulator to increase the output voltage. When the input voltage rises above the reference voltage, the servo motor adjusts the voltage regulator to decrease the output voltage. Servo stabilizers are available in a wide range of sizes and capacities, depending on the application. They are commonly used in commercial and industrial settings, where stable voltage is critical for the operation of sensitive equipment, such as computers, medical devices, and manufacturing equipment. The benefits of using a servo stabilizer include improved equipment performance, reduced downtime, and increased equipment lifespan. By regulating and stabilizing the voltage, the servo stabilizer protects equipment from damage caused by voltage fluctuations, which can lead to equipment failure and costly repairs. Overall, servo stabilizers are essential components of electrical power supply systems, and their design and construction are critical to ensuring reliable and stable power supply for sensitive equipment. Servo stabilizers must be designed and constructed with high-quality materials and components to ensure optimal performance and long-term reliability
Frequency : 50hz
Output Type : Three Phase
Automatic Grade : Automatic
Production Power : 20KVA-1000KVA
...morePower Transformer
Power transformers up to 66 kV are used to transfer electrical power between high voltage systems, typically at the transmission level, and lower voltage systems used for distribution. These transformers are designed to operate at high efficiency and to handle large amounts of electrical power. The core and coil assembly of a power transformer is designed to minimize energy loss and reduce heat generation. The core is typically made of laminated silicon steel, which is carefully chosen for its magnetic properties, and the coils are made of high-quality copper or aluminum wire. The insulation system used in a power transformer is critical to its performance and reliability. The transformer must be able to withstand high voltage surges and other electrical disturbances that can occur on the transmission line. The insulation system typically consists of several layers of insulation, including solid insulation, oil insulation, and gas insulation. Power transformers up to 66 kV are typically designed for outdoor use and are mounted on a transformer platform or a concrete pad. The transformer tank is designed to be weather-resistant and to withstand harsh environmental conditions, such as extreme temperatures, high humidity, and exposure to moisture and contaminants. The cooling system used in a power transformer is also critical to its performance. The transformer must be able to dissipate the heat generated during operation to prevent overheating and damage to the transformer. The cooling system typically consists of a combination of natural cooling, where the transformer is cooled by air, and forced cooling, where the transformer is cooled by a liquid coolant, such as oil. Overall, power transformers up to 66 kV are critical components of the electrical power transmission and distribution system, and their design and construction are essential for ensuring the reliable and efficient delivery of electricity to consumers. The transformer must be designed and constructed with high-quality materials and components to ensure optimal performance and long-term reliability
Speciality : Low Losses And Value For Money
Working Frequency : 50hz
Tensile Strength : 0-25Mpa
Cooling System : Oil Cooled
Production Power : 1000KVA-20000KVA
...moreOltc Distribution Transformer
Key Features: Easy to install and operate Low maintenance required Digital IC controlled circuit, which make the stabilizers automatic in nature Ensures the equipment or electric device’s safety Seek, compact and elegant design Consumes very low power
Frequency : 50hz
...moreIsolation Transformers
Isolation transformers are a type of transformer used to isolate electronic devices from the power source. They are designed to prevent electrical noise and other disturbances from entering the electronic device, thereby protecting it from damage and improving its performance. Isolation transformers work by providing electrical isolation between the primary and secondary windings, which effectively blocks the transfer of electrical noise and other disturbances. They are commonly used in medical equipment, laboratory instruments, and audio equipment, where high-quality, low-noise power is essential. The design and construction of isolation transformers are critical to ensuring their effectiveness in preventing electrical noise and other disturbances from entering electronic devices. The core and coil assembly is designed to minimize energy loss and reduce heat generation. The coils are typically wound to precise specifications to ensure efficient energy transfer, while the core is carefully designed to minimize hysteresis and eddy current losses. Isolation transformers are designed to meet a range of industry standards and regulations, including the National Electrical Code (NEC) and the International Electrotechnical Commission (IEC) standards. They are also subjected to rigorous testing and inspection to ensure that they meet the required performance and safety standards. Overall, isolation transformers are critical components of electronic devices, responsible for protecting them from electrical noise and other disturbances. Their design and construction are essential to ensuring optimal performance and long-term reliability in a variety of applications
Country of Origin : India
Color : Sliver
Finishing : Polished
Driven Type : Electric
Phase : Single Phase
Operating Type : Automatic
...moreFurnace Transformer
Furnace transformers are a type of transformer used in electric arc furnaces for steel production. They are critical components of the steel production process, responsible for supplying high current, low voltage power to the furnace for melting and refining steel. Furnace transformers are designed to handle extremely high levels of electrical stress and to operate under demanding conditions. They are available in a wide range of sizes and capacities, depending on the application. The core and coil assembly of a furnace transformer is designed to withstand high levels of electrical stress and to minimize energy loss and heat generation. The coils are typically made from high conductivity copper or aluminum, and the core is made from high-permeability magnetic steel. Furnace transformers are designed to meet a range of industry standards and regulations, including the National Electrical Code (NEC) and the International Electrotechnical Commission (IEC) standards. They are also subjected to rigorous testing and inspection to ensure that they meet the required performance and safety standards. Overall, furnace transformers are critical components of the steel production process, responsible for supplying high current, low voltage power to electric arc furnaces. Their design and construction are essential to ensuring optimal performance and long-term reliability in this demanding industrial application
Frequency : 50hz
Production Power : 25KVA-2500KVA
...moreDry Type Transformer
Dry-type transformers are a type of transformer that do not use a liquid or oil-filled insulation system. Instead, they use a solid or cast resin insulation system that is environmentally friendly, low maintenance, and safe for use in a wide range of applications. Dry-type transformers are used in a variety of applications, including commercial, industrial, and residential power distribution systems. They are often used in applications where the transformer must be located indoors or in close proximity to people or sensitive equipment. The benefits of using dry-type transformers include reduced fire hazard, reduced environmental impact, and improved energy efficiency. Dry-type transformers are less prone to fires because they do not use flammable oils or liquids, which makes them safer to use in a variety of settings. Additionally, the solid insulation system used in dry-type transformers is more environmentally friendly than liquid-filled transformers and requires less maintenance. The design and construction of dry-type transformers are critical to ensuring the safe and reliable operation of the electrical power system. Dry-type transformers must be designed to withstand high levels of electrical stress and to operate under a wide range of operating conditions. The core and coil assembly of a dry-type transformer is designed to minimize energy loss and reduce heat generation. The coils are wound to precise specifications to ensure efficient energy transfer, while the core is carefully designed to minimize hysteresis and eddy current losses. Dry-type transformers are designed to meet a range of industry standards and regulations, including the National Electrical Code (NEC) and the International Electrotechnical Commission (IEC) standards. They are also subjected to rigorous testing and inspection to ensure that they meet the required performance and safety standards. Overall, dry-type transformers are critical components of the power distribution and transmission system, responsible for providing safe and reliable power in a variety of applications. Their design and construction are essential to ensuring optimal performance and long-term reliability
Production Power : 25KVA–2000KVA
Frequency : 50Hz
Tensile Strength : 0-5Mpa
Feature : Easy To Install, Four Times Stronger, Proper Working, Superior Finish
Cooling System : Air Cooled
...moreDistribution Transformer
Distribution transformers are a type of transformer that is used to transfer electrical energy from a high-voltage power transmission line to a lower voltage distribution line. These transformers are typically used in the last stage of the electrical power distribution system, where the voltage is reduced to a level that can be safely delivered to residential and commercial consumers. Distribution transformers come in a variety of sizes and capacities, ranging from a few kilovolt-amperes (kVA) to several megavolt-amperes (MVA). They are typically mounted on poles or pads and are designed to operate in a variety of environmental conditions. The design of a distribution transformer is critical to its performance and reliability. The transformer must be able to handle the electrical load without overheating, and it must be able to withstand voltage surges and other electrical disturbances that can occur on the distribution line. Distribution transformers typically use a step-down configuration, where the voltage is reduced from the higher voltage transmission line to a lower voltage distribution line. The primary winding of the transformer is connected to the transmission line, while the secondary winding is connected to the distribution line. The core and coil assembly of a distribution transformer is designed to minimize energy loss and reduce heat generation. The laminated steel core is carefully designed to minimize hysteresis and eddy current losses, while the coils are wound to precise specifications to ensure efficient energy transfer. In addition to their electrical performance, distribution transformers must also be designed to withstand harsh environmental conditions, such as extreme temperatures, high humidity, and exposure to moisture and contaminants. The transformers are typically constructed with weather-resistant materials and are sealed to prevent moisture from entering the transformer. Overall, distribution transformers play a critical role in the electrical power distribution system, and their design and construction are essential for ensuring the reliable and efficient delivery of electricity to residential and commercial consumers These transformers are BIS Certified and have approved designs from CPRI Bhopal, ERDA Vadodra, NTH Ghaziabad and ERTO Gujrat.
Cooling Type : Oil Cooled
...moreAuxiliary Transformer
Auxiliary transformers are a type of transformer that is used in electrical power systems to provide low voltage power for control circuits and other auxiliary equipment. They are essential components of power distribution and transmission systems, responsible for the safe and reliable operation of the system. Auxiliary transformers are typically located near the equipment they serve and are designed to provide a reliable source of low voltage power. They are available in a wide range of sizes and capacities, depending on the application. The design and construction of auxiliary transformers are critical to ensuring the safe and reliable operation of the electrical power system. Auxiliary transformers must be designed to withstand high levels of electrical stress and to operate under a wide range of operating conditions. The core and coil assembly of an auxiliary transformer is designed to minimize energy loss and reduce heat generation. The coils are wound to precise specifications to ensure efficient energy transfer, while the core is carefully designed to minimize hysteresis and eddy current losses. Auxiliary transformers are designed to meet a range of industry standards and regulations, including the National Electrical Code (NEC) and the International Electrotechnical Commission (IEC) standards. They are also subjected to rigorous testing and inspection to ensure that they meet the required performance and safety standards. Overall, auxiliary transformers are critical components of the power distribution and transmission system, responsible for providing reliable low voltage power for control circuits and other auxiliary equipment. Their design and construction are essential to ensuring optimal performance and long-term reliability.
Winding Material : Copper
Cooling Type : Oil Cooled
Frequency : 50Hz
Application : Railways
Transformer Type : Auxiliary
Phase : Single Phase
Input : 25KV
Output : 24KV
...moreElectrical Transformers
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