· Core Type EE20/6
· Power - 0.35VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 25g
· Core Type EE20/6
· Power - 0.35VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 25g
· Core Type EE20/6
· Power - 0.35VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 25g
· Core Type EE20/10.5
· Power - 0.5VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 35g
· Core Type EE20/6
· Power - 0.35VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 25g
· Core Type EE20/6
· Power - 0.35VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 25g
· Core Type EE20/10.5
· Power - 0.60VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 35g
· Core Type EE20/10.5
· Power - 0.60VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 35g
· Core Type EE20/10.5
· Power - 0.60VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 35g
· Core Type EI 30/5
· Power - 0.5VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 43g
· Core Type EI 30/12.5
· Power - 1.5VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 80g
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· Core Type EI 30/12.5
· Power - 1.5VA
· Input voltage - 230V or 115V, 50/60Hz
· Insulation class - Class B (130°C)
· Ambient temperature (ta)- 70°C
· Dielectric strength - 4, 500Vrms
·Inherently short-circuit-proof
· Self-extinguishing material
· Potted under vacuum
· Weight: 80g
We focus on developing high-quality Transformer and Inductors for top-end markets. And our products are mainly exported to over 30 countries such as USA, Italy, Canada, Egypt, Netherlands,Mexico,Greece,Iran, India, Thailand, Russia, France, Turkey, New Zealand, Israel and etc. Famous Car Mirror Cover and factory in China, We got the CQC, VDE, CE, UL, RoHS and other certificates successively. We also offer OEM custom Inductors and Transformer.
Selecting the right electronic inductors and transformers is essential for ensuring optimal performance, efficiency, and reliability in electronic circuits and power systems. Several factors need to be considered when choosing these components. Understanding these key considerations can help customers make informed decisions. Let's delve into the important factors to consider when selecting electronic inductors and transformers:
Application Requirements: The first step in selecting electronic inductors and electronic transformers is understanding the specific requirements of the application. Consider factors such as voltage, current, frequency range, power rating, and temperature range. Different applications may have unique demands, and selecting components that meet these requirements is critical for reliable and efficient operation.
Inductance and Turns Ratio: Inductance is a key parameter for inductors, representing their ability to store energy in a magnetic field. For transformers, the turns ratio determines the voltage conversion ratio. Determine the desired inductance value or turns ratio based on the application's voltage or current requirements. Select components that offer the appropriate inductance or turns ratio to achieve the desired performance.
Frequency Range: Consider the frequency range of the application. Different inductors and transformers are designed for specific frequency ranges. Choose components that can handle the frequency range of the signals or power being processed. High-frequency applications may require specialized components with enhanced performance characteristics.
Core Material: The core material used in inductors and transformers significantly impacts their performance. Common core materials include ferrite, iron, laminated steel, and powdered iron. Each material has different properties, such as permeability, saturation, and core losses. Select the appropriate core material based on factors like frequency range, power requirements, and desired efficiency.
Size and Mounting: Consider the physical size and mounting options of the electronic inductors and transformers. Ensure that the components fit within the available space on the PCB or in the system enclosure. Evaluate the mounting options, such as surface mount, through-hole, or chassis mounting, and choose components that are compatible with the intended mounting method.
Temperature and Environmental Conditions: Assess the temperature and environmental conditions in which the electronic inductors and transformers will operate. Some applications may require components that can withstand high temperatures, humidity, vibration, or other harsh environmental factors. Select components that are rated for the specific temperature and environmental conditions of the application.
Quality and Reliability: Choose electronic inductors and transformers from reputable manufacturers known for producing high-quality components. Consider factors such as reliability, performance consistency, and adherence to industry standards. Reliable components ensure long-term stability and reduce the risk of failures or performance degradation.
Cost and Budget: Consider the cost implications of the electronic inductors and transformers. Compare prices from different suppliers while considering the desired performance and quality. Strive for a balance between cost-effectiveness and meeting the application's requirements.
By considering these key factors, customers can make informed decisions when selecting electronic inductors and transformers. As a manufacturer, supplier, and factory of these components, you play a vital role in providing customers with high-quality, reliable, and efficient solutions for their electronic circuit and power system needs.
We produce Encapsulated Transformer, High frequency switching transformer, Low frequency power transformer ,inductor and current transformer.
Address: No. 9-1, Yuda Road, Yuhang Street, Yuhang District, Hangzhou
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Custom Inductors and Transformer Products
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