LVR03R0250FE70

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Through Hole Resistors

Through hole resistors are widely used in a variety of applications. The LVR03R0250FE70 is one such resistor that is used in many applications. This resistor’s operating temperature range is from -55°C to +150°C, making it suitable for use in a wide variety of environments. The maximum overload voltage of this resistor is 1.5kV, making it suitable for applications with high voltage requirements.

The LVR03R0250FE70 can be used in many applications, such as motors, generators, power supplies, LED lighting, and automotive electronics. They are also suitable for high frequency applications, as they can handle frequencies up to 500MHz. Due to their low resistance, these resistors are often used in circuits where low output impedances are required, such as those used in amplifiers or medical equipment.

The LVR03R0250FE70 is a high precision resistor due to its low temperature coefficient and its high stability. This means that it can maintain a consistent resistance value even with changing temperatures. This allows the device to be used in precision circuits where constant resistance is required, such as those in RF applications where frequency stability is key.

In addition to its operating temperature range and overload voltage, there are two other key performance indicators used to measure the performance of the LVR03R0250FE70. These are the maximum power dissipation and the voltage coefficient. The maximum power dissipation of this resistor is 0.35W, making it suitable for use in circuits with high current requirements. The voltage coefficient is also low, meaning that the resistance value remains stable when exposed to higher voltages.

The CVR03R0250FE70 resistor can be used in various circuits, such as voltage dividers, current limiters, noise filters, and analog circuits. It can also be used in stepper motor control applications as it is suitable for both low and high current requirements. The resistor’s high stability also makes it ideal for use in high frequency oscillators and other precision circuits.

The working principle of this resistor is simple. When a voltage is applied across its terminals, the resistor absorbs some of the energy and dissipates the rest as heat. As a result, the voltage across the terminals reduces and the current flowing through the resistor reduces accordingly. This leads to a reduction in the total power consumed by the circuit, as the resistor acts as a “current limiter” in the circuit, reducing the flow of current.

In conclusion, the LVR03R0250FE70 is a high precision resistor that is suitable for a variety of applications. Its low temperature coefficient and its high stability make it ideal for use in circuits where a constant resistance is required, such as those in amplifiers, oscillators, and RF applications. The maximum power dissipation and voltage coefficient of this resistor also make it suitable for use in circuits with high current requirements. Finally, the simple working principle of the resistor means that it can act as a “current limiter” in a circuit, reducing the total power consumed.

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