Zero-error-converter
A single programming resistor (Rp) provides an output current range of approximately six decades. It is important to note that the temperature coefficient (TC) of this resistor can introduce potential errors, as it dissipates 125 mW when the junction linearity (JliN) is around 5 V. The maximum deviation is typically 50 nA, equating to 0.0002% of the full scale. Furthermore, this voltage-controlled current source employs an optocoupler (IC2) to mitigate an error commonly found in traditional circuits, which arises from the base current of the output transistor.
The described circuit features a single programming resistor, Rp, which is pivotal in establishing a wide output current range that spans six decades. The resistor's temperature coefficient (TC) is a critical parameter, as variations in temperature can lead to inaccuracies in current output. The resistor's power dissipation of 125 mW at a junction voltage of approximately 5 V indicates a significant thermal load, necessitating careful thermal management to maintain precision in current output.
The circuit is designed to minimize the impact of the output transistor's base current, a common source of error in conventional current sources. By integrating an optocoupler (IC2), the circuit effectively isolates the control signal from the output stage, thereby preventing the base current from influencing the output current. This configuration enhances the overall accuracy and stability of the current source, making it suitable for applications requiring high precision.
In practical applications, the current source can be utilized in various electronic systems where precise current control is essential. The design considerations, including the selection of the programming resistor and the optocoupler, play a crucial role in ensuring the circuit's performance meets the required specifications. Overall, this configuration represents a robust solution for achieving reliable and accurate current sourcing in electronic applications.Single programming resistor Rp provides an output-current range of about six decades.-Note that this resistor"s TC is also a potential source of error; it dissipates 125 mW when JliN ~ 5 V. The maximum deviation is typically 50 nA or 0.0002% of full scale. This voltage-controlled current source uses optocoupler IC2 to eliminate an error found in more conventional circuits and which is caused by the output transistor"s base current. 🔗 External reference
The described circuit features a single programming resistor, Rp, which is pivotal in establishing a wide output current range that spans six decades. The resistor's temperature coefficient (TC) is a critical parameter, as variations in temperature can lead to inaccuracies in current output. The resistor's power dissipation of 125 mW at a junction voltage of approximately 5 V indicates a significant thermal load, necessitating careful thermal management to maintain precision in current output.
The circuit is designed to minimize the impact of the output transistor's base current, a common source of error in conventional current sources. By integrating an optocoupler (IC2), the circuit effectively isolates the control signal from the output stage, thereby preventing the base current from influencing the output current. This configuration enhances the overall accuracy and stability of the current source, making it suitable for applications requiring high precision.
In practical applications, the current source can be utilized in various electronic systems where precise current control is essential. The design considerations, including the selection of the programming resistor and the optocoupler, play a crucial role in ensuring the circuit's performance meets the required specifications. Overall, this configuration represents a robust solution for achieving reliable and accurate current sourcing in electronic applications.Single programming resistor Rp provides an output-current range of about six decades.-Note that this resistor"s TC is also a potential source of error; it dissipates 125 mW when JliN ~ 5 V. The maximum deviation is typically 50 nA or 0.0002% of full scale. This voltage-controlled current source uses optocoupler IC2 to eliminate an error found in more conventional circuits and which is caused by the output transistor"s base current. 🔗 External reference