MNR12ERAPJ473

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MNR12ERAPJ473 is a device belonging to the family of resistors networks, arrays and parts. It is a general purpose electronic component primarily used in applications where current needs to be controlled, such as electronic circuits. It is composed of two or more individual resistors in a single package connected in a network. Because of the cost-effectiveness, it has become the device of choice for many circuit design and prototyping applications.

The MNR12ERAPJ473 applies a precision resistive network with low output impedance and high accuracy and stability. Its precision resistor array technology provides accurate and repeatable resistance values over temperature. The MNR12ERAPJ473 is designed to meet the requirements for enhanced dynamic accuracy and thermal stability in critical high-precision applications. The device has an excellent temperature coefficient and aging characteristic in order to ensure consistent performance over the specified temperature range.

The main function of MNR12ERAPJ473 is to provide a resistance between two terminals, allowing a current to flow to a certain point. It works to control the current in a circuit, limit voltage level, divide signal voltage, and balance voltage and power transmission levels. It is typically used in situations where voltage and current need to be regulated, such as in amplifiers, filters, motors, power supplies, and consumer electronics and communication devices.

The use of MNR12ERAPJ473 provides an extra layer of protection and flexibility to the circuits they are installed in. The device consists of two parallel arrays connected in series forming the differential resistance and terminals, and two terminals connected at one end. By utilizing the resistance values in each array, the device can be used to fine-tune and adjust power levels. This allows it to be used in various applications, such as audio and video signal processing, electronic clock design, and power supply design.

The working principle of MNR12ERAPJ473 is conveyed by its circuit diagram. The parallel array is connected in series with one end connected to the current control node and the other to the voltage source. The two terminals are the main input and output terminals of the device and the connection between them defines the resistance of the device. As current passes through the device, the resistance value of each array determines how much current will pass through the device and how much voltage will be created.

In conclusion, MNR12ERAPJ473 belongs to the family of resistors networks, arrays and parts. The device is an integrated circuit designed to provide a precise resistance value between two terminals of a circuit. It is used in applications where current needs to be controlled or regulated and its precision resistor array technology provides accurate and repeatable resistance values over temperature. The working principle of the MNR12ERAPJ473 is simple and straightforward and its uses are diverse and valuable in today’s electronics market.

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