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| Brand Name: | Derun |
| MOQ: | 10pcs |
| Price: | Negotiation |
The Low Frequency Transformer is a vital component in electrical and electronic systems, designed to efficiently transfer electrical energy at low frequencies. Renowned for its reliability and performance, this transformer is engineered to meet a wide range of industrial and commercial applications. With a power rating of up to 1000 KVA, it is capable of handling substantial electrical loads, making it suitable for both heavy-duty and precision tasks.
One of the primary variants within this product range is the Low Frequency Step Up Transformer. This transformer is specifically designed to increase voltage from a lower level to a higher level while maintaining the integrity and quality of the electrical signal. Its ability to step up voltage efficiently makes it indispensable in power distribution networks, where voltage escalation is necessary to reduce transmission losses over long distances. The Low Frequency Step Up Transformer ensures minimal energy loss and optimal performance, contributing to the overall efficiency of electrical systems.
In addition to step-up transformers, the Low Frequency Power Transformer is another critical product in this category. This transformer is built to handle large power loads with high reliability and durability. It is widely used in power generation, distribution, and industrial applications where stable and consistent power transformation is essential. The Low Frequency Power Transformer is designed with robust construction and advanced materials to withstand harsh operating conditions, ensuring long service life and minimal maintenance requirements.
The Low Frequency Signal Transformer is a specialized type tailored for signal processing applications. It is used in communication devices, audio equipment, and instrumentation systems where precise signal transfer and isolation are crucial. This transformer excels in maintaining signal integrity, reducing noise interference, and providing excellent frequency response. Its design supports seamless integration into complex electronic circuits, enhancing overall system performance and reliability.
Regarding insulation, the Low Frequency Transformer offers versatility with insulation classes including Class B, Class F, and Class H. These insulation classes define the thermal endurance of the transformer’s insulating materials, allowing it to operate safely under various temperature conditions. Class B insulation supports operation up to 130°C, Class F up to 155°C, and Class H up to 180°C, providing options tailored to specific application requirements and environmental conditions. This range of insulation classes ensures that the transformer can maintain optimal performance and safety even in demanding thermal environments.
The cooling method is another vital aspect of the Low Frequency Transformer’s design. Depending on the application and installation environment, the transformer can be either oil-immersed or air-cooled. Oil-immersed transformers utilize insulating oil for cooling, which also serves as an insulating medium, enhancing the transformer’s thermal management and prolonging its lifespan. This method is particularly effective for high power ratings and continuous heavy loads. Alternatively, air-cooled transformers rely on natural or forced air circulation to dissipate heat, which makes them suitable for environments where oil cooling is impractical or where environmental considerations restrict the use of oil. The availability of both cooling options provides flexibility to meet diverse operational needs.
Voltage rating is a critical specification of the Low Frequency Transformer, with capabilities of handling voltages up to 1000V. This rating makes it suitable for a wide spectrum of applications, from low voltage control circuits to medium voltage power systems. The transformer’s design ensures stable voltage transformation, minimal losses, and high efficiency across its operating voltage range, contributing to energy savings and enhanced system reliability.
In summary, the Low Frequency Transformer is an essential electrical device offering high power ratings up to 1000 KVA, versatile insulation classes (B, F, or H), and adaptable cooling methods (oil-immersed or air-cooled) to suit various industrial needs. Its voltage rating up to 1000V accommodates a broad range of applications, making it a flexible and dependable solution. Whether used as a Low Frequency Step Up Transformer, Low Frequency Power Transformer, or Low Frequency Signal Transformer, this product ensures superior performance, safety, and efficiency in electrical energy transformation and signal processing.
The Low Frequency Transformer is a versatile and essential component widely used across various industrial and commercial applications. Designed to operate efficiently within a frequency range of 50Hz to 400Hz, this transformer is ideal for scenarios requiring reliable voltage regulation and electrical isolation at low frequencies. Whether you need a Low Frequency Control Transformer for precise control systems or a Low Frequency Step Up Transformer to increase voltage levels, this product caters to a broad spectrum of electrical engineering needs.
One common application occasion for the Low Frequency Electric Transformer is in automation and control panels. Thanks to its mounting flexibility, available in both DIN Rail and Panel Mount options, it can be easily integrated into compact control cabinets, ensuring streamlined installation and maintenance. The weight of the transformer varies by size, typically ranging from 1kg to 50kg, making it adaptable for equipment of different scales without compromising on performance.
In harsh industrial environments, the Low Frequency Transformer demonstrates excellent durability and reliability. It operates efficiently within a wide temperature range from -40°C to +85°C, which ensures consistent performance even in extreme conditions such as outdoor installations or manufacturing plants with fluctuating temperatures. This robustness makes it suitable for use in power distribution systems, electrical substations, and heavy machinery where stable voltage transformation is critical.
Additionally, the Low Frequency Control Transformer is frequently employed in applications involving sensitive electronic devices and monitoring equipment. Its ability to provide clean and stable voltage helps protect these devices from electrical noise and surges, enhancing overall system longevity and safety. Similarly, the Low Frequency Step Up Transformer is crucial in power generation facilities and renewable energy systems, where voltage needs to be increased efficiently for transmission and distribution purposes.
Overall, the Low Frequency Electric Transformer is an indispensable element in any electrical infrastructure requiring dependable voltage transformation at low frequencies. Its adaptable mounting types, broad operating temperature range, and variable weight options make it a highly flexible solution for diverse industrial, commercial, and energy-related scenarios.
Our Low Frequency Industrial Transformer customization services offer tailored solutions to meet your specific application needs. We provide impedance options typically ranging from 2% to 6%, ensuring optimal performance and compatibility with your systems.
Choose from insulation classes B, F, or H to match your operational environment and thermal requirements, enhancing the durability and reliability of your Low Frequency Industrial Transformer.
For convenience and versatility, our Low Frequency Control Transformer units can be customized with mounting types including DIN Rail or Panel Mount, allowing easy integration into your existing setups.
Weight varies by size, typically ranging from 1kg to 50kg, giving you flexibility in selecting the appropriate transformer for your industrial needs without compromising on quality or efficiency.
Additionally, we offer cooling methods tailored to your preferences, with options for oil immersed or air cooled designs, ensuring optimal thermal management and prolonged service life of your Low Frequency Industrial Transformer.
Our low frequency transformers are carefully packaged to ensure maximum protection during transit. Each transformer is individually wrapped with anti-static and shock-absorbing materials to prevent damage from moisture, dust, and impact.
They are then securely placed in custom-fitted foam inserts within sturdy corrugated cardboard boxes. This packaging method guarantees that the transformers remain stable and cushioned throughout the shipping process.
For bulk orders, transformers are organized in reinforced crates or pallets, with additional padding and strapping to avoid movement and potential harm.
We partner with reliable shipping carriers to provide timely and safe delivery worldwide. Tracking information is provided for all shipments, and insurance options are available to protect your investment.
Our packaging and shipping standards reflect our commitment to quality and customer satisfaction, ensuring your low frequency transformers arrive in perfect condition and ready for use.
Q1: What applications are low frequency transformers typically used for?
A1: Low frequency transformers are commonly used in audio equipment, power supplies, and isolation circuits where efficient voltage conversion and signal integrity at low frequencies are essential.
Q2: What materials are used in the core of low frequency transformers?
A2: The cores of low frequency transformers are usually made from laminated silicon steel or ferrite materials to minimize energy losses and improve performance at low frequencies.
Q3: How do I determine the appropriate power rating for a low frequency transformer?
A3: To select the correct power rating, consider the maximum load current and voltage requirements of your application, ensuring the transformer can handle the expected electrical load without overheating.
Q4: Can low frequency transformers be used for both step-up and step-down voltage conversion?
A4: Yes, low frequency transformers are designed to perform both step-up and step-down voltage conversions depending on the winding ratio and application needs.
Q5: What factors affect the efficiency of a low frequency transformer?
A5: Efficiency is influenced by core material quality, winding resistance, frequency of operation, and proper design to reduce losses such as eddy currents and hysteresis.
