ELJ-RG2N7DF Allicdata Electronics

ELJ-RG2N7DF Inductors, Coils, Chokes

Allicdata Part #:

PCD1581TR-ND

Manufacturer Part#:

ELJ-RG2N7DF

Price: $ 0.00
Product Category:

Inductors, Coils, Chokes

Manufacturer: Panasonic Electronic Components
Short Description: FIXED IND 2.7NH 420MA 320 MOHM
More Detail: 2.7nH Unshielded Inductor 420mA 320 mOhm Max 0201...
DataSheet: ELJ-RG2N7DF datasheetELJ-RG2N7DF Datasheet/PDF
Quantity: 1000
1 +: 0.00000
Stock 1000Can Ship Immediately
$ 0
Specifications
DC Resistance (DCR): 320 mOhm Max
Height - Seated (Max): 0.012" (0.31mm)
Size / Dimension: 0.024" L x 0.012" W (0.60mm x 0.30mm)
Supplier Device Package: 0201 (0603 Metric)
Package / Case: 0201 (0603 Metric)
Mounting Type: Surface Mount
Inductance Frequency - Test: 100MHz
Operating Temperature: --
Ratings: --
Frequency - Self Resonant: 13GHz
Q @ Freq: 4 @ 100MHz
Series: RG
Shielding: Unshielded
Current - Saturation: --
Current Rating: 420mA
Tolerance: ±0.3nH
Inductance: 2.7nH
Material - Core: Non-Magnetic
Type: --
Part Status: Obsolete
Packaging: Tape & Reel (TR) 
Description

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Fixed Inductors have various applications and one of the most common applications of these components is the ELJ-RG2N7DF. This type of inductor is normally used in wireless communication circuits and also in various other applications that require a wide range of electrical parameters. It is able to deliver reliable performance and offer excellent stability over a wide range of temperature and frequency. The ELJ-RG2N7DF is a fixed inductor produced by Renesas Electronics Corporation.

ELJ-RG2N7DF is a fixed smd inductor that is characterized by its low DC resistance, and high inductance value. It has been designed to provide a wide range of electrical parameters and can meet the requirements of modern applications in the wireless communication field. It has a high quality construction, allowing it to be used in harsh environment applications and also to achieve high reliability and reduce the total cost of ownership. It is usually used in RF circuits, but can also be used in other applications such as signal conditioning circuits.

The working principle of ELJ-RG2N7DF fixed inductor is based on the law of induction. This law states that an electric current will induce a changing magnetic field in the area around it. This field is used to induct an electrical current in a coil by interacting with the current through mutual induction. In this case, the ELJ-RG2N7DF is made up of an inductor with a varying number of turns of wire wrapped around a core material. This core material can be made of either ferrite, powdered iron, or other materials depending on the desired application.

The electrical characteristics of ELJ-RG2N7DF are determined by the number of turns, the core material, and the inductance value. The number of turns will determine the resistance and the inductance value will influence the overall performance. In addition to this, the material used in the core will also affect the Q-factor, which measures the inductor’s ability to effectively store and release energy. Higher Q factor results in a greater ability to store energy from incoming signals and also reactive power.

The ELJ-RG2N7DF is used in modern wireless communication applications as it is able to efficiently transmit and receive signals and also reduce distortion in the output signal. It is also used in other applications such as power factor correction and over-current protection. It can be used in the support of other RF components such as amplifiers, filters, and mixers, to name a few. Furthermore, ELJ-RG2N7DF fixed inductors can be used in the high-frequency amplifier design for portable communication devices.

In conclusion, the ELJ-RG2N7DF is a fixed SMD inductor with a wide range of applications in wireless communication. It is characterized by its low DC resistance, high inductance value, and efficient operation. It works on the principle of induction and is made up of an inductor with varying number of turns of wire wrapped around a core material. Its Q-factor measures the inductor’s ability to efficiently store and release energy and it can be used in various applications such as power factor correction, over-current protection, and RF amplifiers.

The specific data is subject to PDF, and the above content is for reference

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