The planar transformer is a type of High Frequency Power Supply Transformer ,ElectronicTransformer,Power pulse Transformer,High Voltage Transformer,Ferrite Core Transformer,High Frequency Flyback Transformer,  that uses planar inductors, capacitors, and switches to perform its function. The main components of a planar transformer are:1. **Planar Inductors**: These are used to store magnetic energy. In planar transformers, these are designed in a two-dimensional layout, making them more compact compared to traditional three-dimensional inductors.2. **Planar Capacitors**: These store electrical energy and are also laid out in a flat configuration. They are used to maintain the AC voltage levels across different parts of the transformer circuit.3. **Switches**: These are used to control the flow of current through the transformer. They can be mechanical or electronic switches depending on the application.The advantages of planar transformers include:- **Compactness**: Due to their 2D design, they can be much smaller than traditional transformers.- **Lower Cost**: They require less material and can be produced using printed circuit board (PCB) technology, which is generally cheaper than manufacturing conventional transformers.- **Higher Efficiency**: Planar transformers can have fewer losses due to their optimized layout and materials.- **Reduced EMI**: Their flat design helps in minimizing electromagnetic interference (EMI).Planar transformers are typically used in high-frequency applications such as power supplies, RF circuits, and other electronics where space and efficiency are critical factors. They are particularly useful in portable devices like laptops, smartphones, and tablets where size and weight need to be minimized without compromising performance.

We had large shipment today.   This shipment's products  include Electronic Transformer also called Power pulse Transformer,High Voltage Transformer,Ferrite Core Transformer,High Frequency Flyback Transformer,High Frequency Power Supply Transformer and power inductor ,filter inductor...  total 17 pallets ,you can see from this picture ,all are well packed and very safe for any  shipment .     We are professional transformer, inductor, filter, coil, current transformer manufacturer with over 12 years of manufacturing experiences ,We are ISO 9001, ISO 14001, IATF16949(is one of the few Transformer manufacturers that acquired IATF 16949 qualification for automotive industry) CQC, UL,VDE certified   We enjoyed a high reputation and keep reliable cooperation with global valued customers such as Panasonic,Bel power, Honeywell, Jabil, Otis, GE,Resideo, ABB, Checkpoint, Eaton.   We can build for you ,feel free to contact us ,we can help you to expand your business .  

The12V SMPS (Switched-Mode Power Supply) ferrite core transformer ,power pulse transformer ,ElectronicTransformer,Power pulse Transformer, High Voltage Transformer,High Frequency Flyback Transformer,High Frequency Power Supply Transformer is a type of power transformer used in electronic devices to step up or step down voltage levels from the input to the output. It is specifically designed for use with SMPS circuits, which are highly efficient power supplies that convert AC input voltage to DC output voltage.   Here are some key features and considerations when using a 12V SMPS ferrite core transformer:   1. **Input Voltage**: The transformer should be rated to handle the voltage of your AC power source. For example, if you're using a standard US outlet (120V), you would need a transformer that can handle this voltage.   2. **Output Voltage**: As mentioned, the transformer outputs 12V. This is the voltage level at which your device will operate. Ensure that your device requires exactly 12V or a compatible voltage level.   3. **Current Rating**: Transformers have a maximum current rating, usually specified in amperes (A). You'll need to know the current draw of your device and ensure that the transformer can supply enough current without overheating.   4. **Efficiency**: SMPS transformers are typically more efficient than traditional transformers due to their switching nature, which reduces energy loss.   5. **Ferrite Core**: Ferrite cores are commonly used in transformers because they offer good magnetic properties at lower frequencies, making them suitable for many electronic applications. They are also relatively inexpensive.   6. **Safety Standards**: Always check if the transformer meets relevant safety standards such as UL, CE, or FCC, depending on your region.   7. **Size and Weight**: The size and weight of the transformer may affect how it fits into your device's design. Choose one that fits well within your project constraints.   8. **Noise and Interference**: Some transformers may introduce noise or electromagnetic interference (EMI) into your circuit. Ensure that your design includes adequate filtering or shielding to mitigate these effects.   9. **Replacement and Availability**: Make sure you can easily find replacement transformers if needed, especially if they are not readily available or come from a niche manufacturer. Before purchasing a 12V SMPS ferrite core transformer, make sure to consult the specifications of your device to ensure compatibility and efficiency. Always follow proper safety guidelines when handling electrical components.

The Ee 16 pc 95 core type Electronic Transformer,Power pulse Transformer,High Voltage Transformer,Ferrite Core Transformer,High Frequency Flyback Transformer,High Frequency Power Supply Transformer It appears you're referring to a component used in electronic circuits, specifically a flyback transformer for an EE16 PC95 application. However, it seems there might be some confusion as "EE16 PC95" isn't a standard or widely recognized model or part number. Flyback transformers are commonly used in power supplies, particularly in switching power supplies and are essential for converting high voltage to low voltage or vice versa. The transformer's design includes a primary winding that carries the input current and a secondary winding that provides the output current. If you're referring to a specific product or model, please provide more details. For instance, if "EE16" refers to a certain type of power supply or converter and "PC95" refers to a particular specification or model, you might need a transformer designed for that specific application. In general, selecting the right flyback transformer involves considering parameters such as: 1. **Voltage Rating**: The voltage rating should match the input and output voltages required. 2. **Power Rating**: The transformer should handle the maximum power load without overheating. 3. **Frequency**: The transformer is designed for operation at a specific frequency. 4. **Insulation Class**: Determines the transformer's ability to withstand heat and electrical stresses. 5. **Core Material**: Affects efficiency and performance. Materials like ferrite or iron are common choices. 6. **Size and Weight**: These are influenced by the transformer's size, which can affect space constraints in your design. For precise information, it would be helpful to know the exact specifications or context of the EE16 PC95 reference. If this is for a specific project or application, details about the circuit requirements would also be useful.

EF 20 ferrite core high frequency transformer , ElectronicTransformer,Power pulse Transformer,High Voltage Transformer,Ferrite Core Transformer,High Frequency Flyback Transformer,High Frequency Power Supply Transformeris a type of electronic component used for power conversion, signal processing, or impedance matching in high-frequency applications. Ferrite cores are commonly used due to their high permeability and low loss characteristics at high frequencies. Here are some key features and specifications you might expect from an EF 20 ferrite core high frequency transformer: 1. **Core Material**: The core is made of ferrite material, which is known for its high magnetic permeability and low loss factors at high frequencies. 2. **Rated Frequency**: As the name suggests, it's designed to operate efficiently at high frequencies, typically ranging from several kHz to tens of MHz. 3. **Rated Voltage**: This refers to the maximum voltage that can be applied across the primary winding of the transformer. It could be specified as primary and secondary voltages, such as 24V/12V. 4. **Turns Ratio (Ratio of Primary to Secondary)**: This defines how much the voltage is stepped up or down between the primary and secondary windings. For example, a ratio of 2:1 means the secondary voltage is half the primary voltage. 5. **Power Rating**: This indicates the maximum amount of power the transformer can handle without overheating. It's usually given in watts. 6. **Insulation Class**: This specifies the temperature class of insulation materials used in the transformer. Common classes include Class B (130°C), Class F (155°C), and Class H (180°C). 7. **Size and Dimensions**: These are crucial for fitting the transformer into a specific application. The dimensions would include height, width, and depth. 8. **Operating Temperature Range**: The range within which the transformer can operate effectively without damage. 9. **Efficiency**: High frequency transformers often have high efficiency, meaning they convert input power to output power with minimal loss as heat. 10. **Noise Characteristics**: Transformers can generate electromagnetic interference (EMI) and may need additional filtering if EMI is a concern. Before selecting an EF 20 ferrite core high frequency transformer for a specific application, it's important to consider all these factors and ensure that the transformer meets your project's requirements. Always refer to the manufacturer's datasheet for detailed information.

Th etd49 ElectronicTransformer,Power pulse Transformer,High Voltage Transformer,Ferrite Core Transformer,High Frequency Flyback Transformer,High Frequency Power Supply Transformer is a specialized component used in electronic equipment, particularly in power supply systems. It is designed to convert AC electrical energy from the main power source into high-frequency AC or DC power for specific circuits or devices that require this frequency range. Here are some key features and aspects of the ETD49 transformer: 1. **Frequency Range**: As indicated by "High Frequency," this transformer operates at a higher frequency than standard power supplies, typically above 50 kHz or even MHz, which allows it to achieve smaller physical size and lighter weight compared to low-frequency transformers. 2. **Power Rating**: ETD49 likely refers to a specific model with a particular power rating, which could range from a few watts to several hundred watts or more, depending on the application. 3. **Efficiency**: High-frequency transformers are generally more efficient due to reduced core losses and lower winding resistance. 4. **Isolation**: They provide isolation between different voltage levels, ensuring safety and preventing ground loops in the circuit. 5. **Material Selection**: The transformer's core may be made of ferrite or other high-frequency materials that minimize core losses and allow for higher operating frequencies. 6. **Application**: This type of transformer can be found in various devices such as radiofrequency (RF) amplifiers, switched-mode power supplies (SMPS), and some types of industrial control systems. 7. **Customization**: Depending on the manufacturer, the ETD49 might be available in custom designs to meet specific requirements like output voltage, isolation level, or input/output connectors. 8. **Noise Suppression**: High-frequency transformers often incorporate noise reduction measures to minimize electromagnetic interference (EMI) and ensure clean power delivery. To get a more detailed understanding of the ETD49, you would need to consult the datasheet or specifications provided by the manufacturer, as these components can vary significantly in their exact design and performance parameters.

The EE10 led transformer is used PC 40 PC44 or PC95 ferrite core electronic transformer is a type of ElectronicTransformer,Power pulse Transformer,High Voltage Transformer,Ferrite Core Transformer,High Frequency Flyback Transformer,High Frequency Power Supply Transformer that uses a ferrite core to transfer electrical energy from one circuit to another. The PC40 ,PC44 and PC95 refer to the size and shape of the ferrite core used in the transformer. These types of transformers are commonly used in electronic devices such as power supplies, inverters, and audio equipment. They are known for their high efficiency and compact size, making them ideal for use in space-constrained applications. electronic device that is used to convert high voltage AC power to low voltage DC power for use with LED lights. It is designed specifically for use with LED lighting systems and is often used in commercial and residential lighting applications. The EE10 transformer is compact and energy-efficient, making it an ideal choice for LED lighting systems that require reliable and efficient power. It is also capable of dimming and can be used with a variety of LED dimmer switches to create custom lighting effects.

A 3-phase common mode power inductor is an filter inductor,high current inductor that is designed to filter out common mode power inductor noise in a 3-phase power system. Common mode noise is a type of electrical interference that occurs when there is a disturbance in the electrical signal that is common to all three phases of a 3-phase power system. The common mode power inductor is designed to provide a high level of impedance to common mode noise it doesn't like coilcarf inductor, wurth inductor while allowing the normal 3-phase power signal to pass through unimpeded. This is achieved by using a special winding configuration that creates a magnetic field that is opposite in direction to the common mode noise. Common mode power inductors are commonly used in motor drives, power supplies, and other applications where 3-phase power is used. They are available in a range of sizes and specifications to suit different applications.It consists of a coil of wire, often wrapped around a magnetic core, that resists changes in current by inducing a voltage in the opposite direction. Inductors are commonly used in electronic circuits for filtering, tuning, and energy storage. They are measured in units of henries (H) and have a symbol that looks like a coiled spring.

The EI28 low frequency transformer is a type of Line Power Transformer,Audio Transformer,Shell Type Transformer,power transformers that are commonly used in various electronic devices and equipment. It is characterized by its compact size and high efficiency, making it suitable for applications where space is limited. The "EI" in the name refers to the shape of the transformer's core, which is typically made of laminated steel sheets in the shape of an "E" and an "I". The number "28" indicates the size of the core, with larger numbers generally indicating larger transformer sizes. The shell type construction of the transformer refers to the arrangement of the windings and the core. In a shell type transformer, the primary and secondary windings are wound around the central leg of the core, with the core acting as a magnetic path for the flux generated by the windings. This design provides good magnetic coupling between the windings and efficient transfer of power. Low frequency transformers like the EI28 are designed to operate at frequencies below 100 kHz, making them ideal for power supply applications, audio equipment, and other low-frequency applications. They are typically used to step up or step down voltage levels and provide isolation between different parts of a circuit. The EI28 transformer is known for its high efficiency and low power loss, making it a popular choice for many electronic devices.

The PQ32 high frequency power supply transformer is a type of transformer that is designed to operate at high frequencies, typically in the range of several kilohertz to several megahertz. It is commonly used in power electronics applications such as switch-mode power supplies, inverters, and other high-frequency power conversion systems. The PQ32 transformer is named after its core size, which is typically 32mm x 32mm. It is a compact and efficient transformer that is capable of handling high power levels while maintaining a small form factor. The high frequency operation of the PQ32 transformer,,Power pulse Transformer,High Voltage Transformer,Ferrite Core Transformer,High Frequency Flyback Transformerallows for smaller and lighter power supply designs compared to traditional transformers operating at lower frequencies. This is because high frequency transformers can operate at higher power densities and can be made using smaller and lighter materials. The PQ32 transformer is typically designed using ferrite cores, which have high magnetic permeability and low losses at high frequencies. The windings of the transformer are made using high conductivity copper wire to minimize resistive losses. Overall, the PQ32 high frequency power supply transformer is a key component in many power electronics applications, enabling efficient and compact power conversion at high frequencies.