MNR18ERAPJ333

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Resistor Networks, Arrays

Resistor networks are integral in the operation of many electronic applications. These components provide resistance in the circuit, allowing different levels of current to be regulated and allowing precise tolerance levels to be maintained. The MNR18ERAPJ333 is one such resistor network that is popular due to its small size, low power consumption, fast switching time, and highly precise resistance values. This article aims to explain the range of applications for MNR18ERAPJ333, its working principle, and what advantages it brings.

The MNR18ERAPJ333 resistor network is a very compact package, with its 18 pins occupying a total of 8.2 mm² on the printed circuit board. The package contains nine individual resistors, ranging from 12.4 Ω to 1.23 kΩ. The resistors are connected in an array, with two pins directly connected to each other to form the common node of the resistor network.

The MNR18ERAPJ333 is a perfect solution for applications requiring low-resistance values in a small form factor. These applications include communication systems, automotive systems, robotics, computers, and many other applications. The resistor array is often used as a voltage divider, with two input voltage sources connected on the opposite ends and the output voltage taken from the middle of the resistor network. This configuration allows for varying the output voltage by changing the resistance values of the individual resistors.

The MNR18ERAPJ333 also has a fast switching time, which is beneficial for higher frequency applications such as radio communications. It is also highly precise, with very low tolerance levels. For example, the absolute tolerance of its internal resistors is ±1%. This makes the MNR18ERAPJ333 extremely useful in applications where precision is key, such as medical applications, automotive electronics, and low-power control circuits.

The working principle of the MNR18ERAPJ333 is relatively simple. Each of the nine resistors is connected in series to the common node. When a voltage is applied between the internal nodes, the voltage is divided among the resistors according to their resistance values. The output voltage is then taken from the common node of the resistor network. As the voltage is divided by the resistors, the current will be divided according to the same ratio. This helps to limit the current flowing through each individual resistor, preventing it from being over-powered.

In summary, the MNR18ERAPJ333 is a small, low-power, fast switching resistor array for a variety of electronic applications. It has a small form factor, allowing it to be easily integrated into existing circuit boards. The highly precise resistance values and fast switching time make the MNR18ERAPJ333 an ideal choice for many applications, from radio communications to medical devices. Its working principle is relatively simple, and its operation can be understood swiftly.

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