105-182G Allicdata Electronics
Allicdata Part #:

105-182G-ND

Manufacturer Part#:

105-182G

Price: $ 7.37
Product Category:

Inductors, Coils, Chokes

Manufacturer: API Delevan Inc.
Short Description: FIXED IND 1.8UH 250MA 1.5 OHM
More Detail: 1.8µH Unshielded Inductor 250mA 1.5 Ohm Max Nonst...
DataSheet: 105-182G datasheet105-182G Datasheet/PDF
Quantity: 1000
2000 +: $ 6.63195
Stock 1000Can Ship Immediately
$ 7.37
Specifications
DC Resistance (DCR): 1.5 Ohm Max
Height - Seated (Max): 0.075" (1.91mm)
Size / Dimension: 0.100" L x 0.100" W (2.54mm x 2.54mm)
Supplier Device Package: --
Package / Case: Nonstandard, 2 Lead
Mounting Type: Surface Mount
Inductance Frequency - Test: 7.9MHz
Operating Temperature: -55°C ~ 125°C
Ratings: --
Frequency - Self Resonant: 90MHz
Q @ Freq: 25 @ 7.9MHz
Series: 105
Shielding: Unshielded
Current - Saturation: --
Current Rating: 250mA
Tolerance: ±2%
Inductance: 1.8µH
Material - Core: Iron
Type: --
Part Status: Active
Packaging: Tape & Reel (TR) 
Description

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Fixed inductors, also known as chokes, have become an increasingly important component of today’s electronics. They are designed to store energy in an electromagnetic field, thus providing a current of some sort when a voltage is applied across it. Chokes are very useful in many different applications, from filtering out electromagnetic interference to providing line isolation in switching power supplies. One application in particular, known as the 105-182G application field and working principle, has helped to make the use of inductors even more widespread.

The 105-182G application is primarily used in broadband cable networks. This application is based on the architecture of coaxial cable, which is a type of cable that has a center conductor surrounded by an insulating material and a protective sheath. The 105-182G application uses a combination of an inductor and an oscillator circuit to transmit data along the cable. The inductor stores current and is connected in such a way that it increases the voltage and current that is sent down the cable. This electromagnetic energy then passes through the cable to the other end, at which point it is picked up by an oscillator circuit which converts the signal back to a usable form. This process allows for a much higher data transmission rate than would be possible without the use of inductors.

105-182G inductors are designed to have a certain amount of inductance, which is a measure of how much energy is stored in the electromagnetic field. The amount of inductance determines the current that can be drawn from the cable. The higher the inductance, the more current that can be drawn. The inductance is also related to the shielding of the cable, as higher inductance usually requires better shielding to protect the signal from interference. For this reason, the 105-182G application usually requires shielded coaxial cable in order to ensure that the signal is transmitted properly.

The working principle of the 105-182G application is quite simple. When a voltage is applied across the inductor, a current proportional to the value of the voltage is drawn from the inductor. This current then passes through the oscillator circuit at the other end, with the oscillator circuit converting the signal to the desired form. This allows the data to be sent through the coaxial cable. Additionally, the current also serves to store energy in the electromagnetic field, which is then released when the voltage is removed from the inductor. This energy then helps to power the oscillator circuit, allowing it to continue to generate the correct signal.

The 105-182G application is an important part of many electronic systems today, allowing for higher data transmission rates and more reliable communication. The use of inductors in this application has allowed companies to take advantage of the increased data rates and signal isolation that the technology provides. When combined with other components such as antennas, it is even possible to achieve very high data transmission speeds over long distances. The ability to store energy in an electromagnetic field and convert it into a usable form has made the use of inductors essential in many different applications.

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

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