ORNV50021002TF

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Resistor networks and arrays have wide applications in various areas, and ORNV50021002TF is one of them. In this article, we would discuss the applications and the working principles of ORNV50021002TF.

ORNV50021002TF is a resistor network which consists of 10 different resistors. Its resistors are selected to a 0.5 percent tolerance and have an adhesive backing for mounting. Specifically, it includes two 500 ohm, two 1000, two 2100, two 2200, two 2217, and two 2300 ohm resistors arranged in a row or an array. ORNV50021002TF is widely used in radiofrequency (RF) signal distribution for wireless applications.

This network has several advantages over a discrete resistor. Firstly, it takes up less component space compared to a discrete resistor. This is especially advantageous in modern consumer electronic devices where space and weight are at a premium. Secondly, it is also more cost efficient. It measured accuracy of ORNV50021002TF is 1% tolerance which is capable of confirming to the required accuracy level in most applications.

ORNV50021002TF works by connecting the resistors together to create a resistor network. The way it works is that the current flows through the first resistor in the network. This first resistor is the 500 ohm resistor. The current going through this resistor is then divided in two parts. One part of the current goes through the second 500 ohm resistor and the other half of the current goes through the 1000 ohm resistor. This process is repeated until the original current is divided into the seven different resistance levels provided.

Furthermore, the current path through ORNV50021002TF can be tailored to the loading conditions in a particular application. This allows for the design and optimization of the different possible paths the current can take through the resistor network, resulting in better performance in specific applications.

ORNV50021002TF also offers improved stability. The resistance values are chosen to closely match the loads throughout the network, allowing for better signal integrity and better performance. The resistors also have a very low temperature coefficient, which means that the resistance values remain constant over a wide range of temperatures.

In summary, ORNV50021002TF is an ideal resistor network for use in wireless applications and it is suitable for use in various applications. It offers several advantages over discrete resistors, including lower cost, improved performance, and improved stability. Additionally, its resistors are closely matched, allowing for better signal integrity and better performance in specific applications.

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