Discover unparalleled efficiency with our transformer featuring Closely Coupled Windings. These tightly linked primary and secondary windings ensure superior performance and reliability, making it an ideal choice for various applications.
Whether you’re working with radio communication, broadcast television, or automatic control systems, this multifunctional transformer offers seamless voltage amplification and power output enhancement. Its efficient design allows for smooth voltage transformation and precise load impedance adjustment.
Engineered for excellence, this transformer boasts a wide passband, high inductance in the primary winding, and minimal leakage inductance. This results in reduced hysteresis loss, providing stable and reliable performance every time. Upgrade your circuits with this user-friendly, high-efficiency component.
Discover the versatility and efficiency of the 10pcs 1300 : 8 Ohm Audio Transformer EE14, an essential component for various electronic applications. Designed by YWBL-WH, this transformer is ideally suited for circuits in radio communication, broadcast television, and automatic control systems.
Features:
Closely Coupled Windings: Primary and secondary windings are tightly linked to increase efficiency and performance. Reliable and Convenient: With stable performance and high reliability, this component ensures user-friendly operation. Multifunctional: Enhances voltage amplification and power output for diverse applications. Efficient Design: Effectively transforms voltage or adjusts the impedance of a load to match circuit requirements. Effective Performance: Offers a wide passband, large original winding inductance, and minimal leakage inductance, reducing the impact of hysteresis loss for superior functionality.
Simplify your electronic projects and boost performance with the reliable 10pcs 1300 : 8 Ohm Audio Transformer EE14 by YWBL-WH.
Customer Insights
It does seem to have a good passband as claimed.
They function well with crystal radios as a good impedance match.
They take the radio impedance and match it to the earbud impedance.
Works fine and lasts a long time.
From observed voltage ratio and measuring, the turns ratio appears to be about 5 not 13.
Could have come with a pinout or what side is primary.
The impedance isn't even close to what is claimed.
Below 200 Hz, the voltage ratio drops off significantly.