Allicdata Part #: | 2-4-6JEL-ND |
Manufacturer Part#: |
2-4-6JEL |
Price: | $ 0.00 |
Product Category: | RF/IF and RFID |
Manufacturer: | Bourns Inc. |
Short Description: | MAGNETICS RF TRANSFORMER |
More Detail: | RF Balun 20kHz ~ 250MHz 6-SMD, J-Lead |
DataSheet: | 2-4-6JEL Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Specifications
Series: | -- |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Frequency Range: | 20kHz ~ 250MHz |
Impedance - Unbalanced/Balanced: | -- |
Phase Difference: | -- |
Insertion Loss (Max): | 3.0dB |
Return Loss (Min): | -- |
Package / Case: | 6-SMD, J-Lead |
Mounting Type: | Surface Mount |
Description
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Baluns are devices that convert signals from one type of transmission medium to another. For example, they are often used to convert between two-wire or four-wire signals. A 2-4-6JEL is a type of balun that is used in applications where both a high-impedance and a low-impedance signal are needed. A 2-4-6JEL consists of two parts: a four-pin connector and a six-pin connector. The four-pin connector is used to connect the high-impedance signal source to the balun, while the six-pin connector is used to connect the low-impedance signal source. A transformer is used to convert the signal between the two. The primary application of a 2-4-6JEL is in radio frequency (RF) applications. These baluns are used to avoid cross-talk and to reduce the effects of unwanted high-frequency signals, such as those emitted from nearby radio and television transmitters. The balun is inserted between the RF source and the antenna, and it acts as a kind of RF signal filter. The four-pin connector is used to connect the balun to the antenna, and the six-pin connector is used to connect the balun to the RF source. In RF applications, the two parts of the balun perform different functions. The four-pin connector is typically used to connect the balun to the antenna, and the six-pin connector is used to connect the balun to the RF source. The four-pin connector is designed to prevent high-frequency signals from reaching the antenna, while the six-pin connector is designed to provide a low-impedance signal path for the RF signal source. The working principle of a 2-4-6JEL is based on the concept of impedance matching. When a high-impedance signal source is connected to the four-pin connector, the balun creates a low-impedance path for the RF signal source. This impedance matching allows the RF signal source to be connected to the antenna without introducing unwanted signals. Similarly, when a low-impedance signal source is connected to the six-pin connector, the balun provides a high-impedance path for the RF signal source, thus avoiding cross-talk and preventing unwanted signals from reaching the antenna. Apart from RF applications, 2-4-6JELs are also used in other applications where a high-impedance and a low-impedance signal are needed. One such application is in medical imaging equipment. In medical imaging equipment, 2-4-6JELs are used to connect the high-impedance signal source to the imaging detector while providing a low-impedance signal path for the imaging signal source. In conclusion, a 2-4-6JEL is a type of balun that is used in applications where both a high-impedance and a low-impedance signal are needed. The two parts of the balun are used to connect the high-impedance signal source to the antenna and the low-impedance signal source to the RF source. The working principle of a 2-4-6JEL is based on the concept of impedance matching. These baluns are used in a variety of applications, including radio frequency applications, medical imaging equipment, and more.The specific data is subject to PDF, and the above content is for reference