Operational Amplifier as Voltage to current & current to Voltage Convertor

Operational Amplifier as Voltage to current & current to Voltage Convertor

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Product Details:

  • Power Low power consumption operational amplifier
  • Usage Voltage-to-Current converter, Current-to-Voltage converter in analog circuits
  • Voltage 3V to 18V typical supply voltage
  • Product Type Operational Amplifier Configured as Converter
  • Material Semiconductor (Silicon), Plastic DIP/SOIC package
  • Design Standard Op-amp connection; as per image (https://cpimg.tistatic.com/2914072/s/4/Operational-Amplifier-as-Voltage-to-current-current-to-Voltage-Convertor.jpg)
  • Power Source DC Supply
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Operational Amplifier as Voltage to current & current to Voltage Convertor Price And Quantity

  • 1 , , Unit
  • Strong, negligible current/voltage variation with varying load (within op-amp & supply limits).
  • Readily available in electronics markets; standard op-amp ICs and passive components used.
  • General-purpose (741, LM358, TL082) and precision op-amps.
  • Current output: Up to 20mA; Voltage output: Matches op-amp supply and feedback network.
  • Voltage input: Typically 0V to ±10V; Current input: Up to 20mA depending on resistor selection.
  • Sensor output reading, process control, analog signal transmission, current/voltage monitoring.
  • Excellent, depends mainly on external resistor tolerance and op-amp specs.
  • Add-on clamping diodes and fuses may be implemented for over-voltage/current protection.
  • DC to 100kHz (dependent on op-amp used).
  • Voltage to current (V-I) converter, current to voltage (I-V) converter.
  • High stability with minimal drift when using precision resistors and quality op-amps.
  • Analog DC signals.
  • Compatible with through-hole or SMD components, breadboard prototyping possible.

Operational Amplifier as Voltage to current & current to Voltage Convertor Product Specifications

  • Semiconductor (Silicon), Plastic DIP/SOIC package
  • DC Supply
  • Approx. 2 grams per IC
  • Low power consumption operational amplifier
  • Standard Op-amp connection; as per image (https://cpimg.tistatic.com/2914072/s/4/Operational-Amplifier-as-Voltage-to-current-current-to-Voltage-Convertor.jpg)
  • Operational Amplifier Configured as Converter
  • 3V to 18V typical supply voltage
  • High accuracy for signal conversion ensuring minimal error
  • Voltage-to-Current converter, Current-to-Voltage converter in analog circuits
  • Standard breadboard compatible; IC form, typically 9mm x 4mm x 3mm
  • Strong, negligible current/voltage variation with varying load (within op-amp & supply limits).
  • Readily available in electronics markets; standard op-amp ICs and passive components used.
  • General-purpose (741, LM358, TL082) and precision op-amps.
  • Current output: Up to 20mA; Voltage output: Matches op-amp supply and feedback network.
  • Voltage input: Typically 0V to ±10V; Current input: Up to 20mA depending on resistor selection.
  • Sensor output reading, process control, analog signal transmission, current/voltage monitoring.
  • Excellent, depends mainly on external resistor tolerance and op-amp specs.
  • Add-on clamping diodes and fuses may be implemented for over-voltage/current protection.
  • DC to 100kHz (dependent on op-amp used).
  • Voltage to current (V-I) converter, current to voltage (I-V) converter.
  • High stability with minimal drift when using precision resistors and quality op-amps.
  • Analog DC signals.
  • Compatible with through-hole or SMD components, breadboard prototyping possible.

Operational Amplifier as Voltage to current & current to Voltage Convertor Trade Information

  • 5 , , Unit Per Week
  • 4-5 Days

Product Description

Study of Operational Amplifier as V to I & I to V Convertor (AE 310 )

 Objective : Basic Operational Amplifier Circuits have been designed to verify the operational amplifier as voltage to current convertor and current to voltage convertor. 

Features : Instrument comprises of ± 15 VDC Regulated Power Supply, 2 round meters, combination of Resistances & IC 741 connected inside & connections brought out at sockets on front panel.



Flexible Signal Conversion

This operational amplifier-based module excels in both voltage-to-current and current-to-voltage conversion, catering to a wide spectrum of analog DC signal applications. Its excellent linearity and low drift ensure consistent performance, making it suitable for high-precision tasks such as sensor signal conditioning or current monitoring.


Wide Compatibility & Simple Integration

Designed for convenience, the module supports a range of general-purpose and precision op-amps, including 741, LM358, and TL082, and is suitable for through-hole and SMD mounting. This adaptability allows for straightforward use in breadboards or professional PCBs, facilitating rapid development for engineers and hobbyists alike.

FAQs of Operational Amplifier as Voltage to current & current to Voltage Convertor:


Q: How does an operational amplifier function as a voltage-to-current (V-I) or current-to-voltage (I-V) converter?

A: An operational amplifier can be configured with appropriate resistor networks to convert an input voltage to a proportional output current (V-I converter) or an input current to a corresponding output voltage (I-V converter). This process uses the op-amps high gain and feedback properties to achieve accurate signal conversion.

Q: What are the typical input and output ranges for these converters?

A: For voltage-to-current conversion, the input voltage typically ranges from 0V to 10V, and the output current can reach up to 20mA based on the selected resistor. In the current-to-voltage conversion mode, the input current can go up to 20mA with the output voltage matching the op-amps supply and feedback network.

Q: When should I use a V-I or I-V converter in my circuit design?

A: Use these converters when you need to interface sensors with output voltages to systems that require current input, or vice versa. Common scenarios include analog signal transmission, current monitoring, and sensor output reading in industrial or laboratory settings.

Q: Where can I implement these operational amplifier converters?

A: These converters are suitable for various environments, including process control, industrial automation, research labs, and applications requiring accurate analog signal conversion. They are also ideal for prototyping on breadboards and integration into custom PCB designs.

Q: What op-amp models are compatible and what are the benefits of using quality components?

A: General-purpose op-amps like 741, LM358, and TL082, as well as precision op-amps, are supported. Using precision resistors and high-quality op-amps enhances accuracy, temperature stability, and minimizes linearity errors or signal drift, leading to reliable performance in diverse conditions.

Q: How is protection against over-voltage or over-current achieved in these configurations?

A: Add-on circuit elements, such as clamping diodes and fuses, can be integrated into the design to safeguard the circuit from excessive voltage or current, ensuring long-term stability and protecting sensitive components.

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