Current to Voltage Converter
Calculate current to voltage converter circuits (transimpedance amplifiers). Design photodiode amplifiers, current sensors, and precision current measurement circuits.
Current to Voltage Converter (Transimpedance Amplifier)
Rf
Iin ──┬─────/\/\/\─────┬─── Vout
│ │
│ ┌─────┐ │
└────┤- │ │
│ Op │────┘
┌────┤+ Amp
│ └─────┘
│
GND
Vout = -Iin × Rf
Gain = Rf (Transimpedance Gain in Ω)
About Current to Voltage Converters
Current to voltage converters (I-V converters or transimpedance amplifiers) convert current signals to voltage signals. They're essential for photodiode amplifiers, current sensing, and precision measurement applications.
Key Characteristics:
- Virtual Short: Input voltage ≈ 0V (virtual ground)
- High Input Impedance: Minimal loading of current source
- Linear Response: Output proportional to input current
- Bandwidth Limitation: Gain-bandwidth tradeoff
Design Considerations:
- Stability: Compensation may be required
- Noise: Johnson noise from feedback resistor
- Bandwidth: Limited by feedback capacitance
- Op-amp Selection: Low input bias current important
Op-amp Recommendations:
- Low Noise: OPA627, LT1028, AD797
- High Speed: THS4031, LMH6624, ADA4817
- Low Bias Current: LMC6001, OPA128, ADA4530
- General Purpose: TL072, LM358, OPA2134