A current source has internal resistance in parallel because it is designed to provide a constant flow of current regardless of the load connected to it. Without internal resistance, the current source would not be able to maintain a constant current output and would be affected by changes in the load.
Internal resistance affects the output of a current source by creating a voltage drop across the source itself. This voltage drop reduces the amount of voltage available to the load, resulting in a decrease in the output current. The higher the internal resistance, the greater the voltage drop and the lower the output current.
No, the internal resistance of a current source cannot be completely eliminated. It is a necessary component of the source and plays a crucial role in maintaining a constant current output. However, the internal resistance can be minimized through careful design and selection of components.
The internal resistance of a current source can be calculated by dividing the open-circuit voltage of the source by the short-circuit current. This ratio is also known as the output impedance of the current source and is measured in ohms.
A high internal resistance in a current source can result in a significant voltage drop across the source, reducing the output voltage available to the load. This can lead to a decrease in the output current as well as potential instability in the circuit. It is important to keep the internal resistance as low as possible to ensure proper functioning of the current source.