Projects
Opamp Differentiator
Aim
To design and simulate a Differentiator circuit using opamp.
Components
Name |
EDWin Components Used |
Description |
Number of components required |
| RES | RC05 | Resistor | 4 |
| CAP | CASE-A600 | Capacitor | 2 |
| OPAMP | 741A | Comparator | 1 |
| VGEN | SMB_VGEN | Ac voltage source | 1 |
| VDC | SMB_VDC | Dc voltage source | 2 |
| GND | SMB_SPL0 | Ground | 5 |
Theory
A circuit in which output waveform is the derivative of the input waveform is known as the differentiator or the differentiation amplifier. Such a circuit
is obtained by using operational amplifier in the inverting configuration connecting a capacitor, C1 at the input. Applying KCL the expression for
output voltage is obtained as follows.
Since 
But 
because A is
very large. Therefore
Thus the output vo is equal to RFC1 times the negative instantaneous rate of change of the input voltage vin with time. The gain of he
circuit 
increases with increase in frequency at a rate of 20 dB/decade. This makes the circuit
unstable. Also the input impedance XC1
decreases with increase in frequency which makes the circuit susceptible to high frequency noise. When amplified the noise can completely
override the differentiated output signal. The frequency at which gain is zero dB is given by
The stability and high frequency noise problems can be corrected by the addition of two components:- R1 and CF. The gain limiting frequency fb
is given by
R1CF and RFCF make the circuit more stable by preventing the increase in gain with frequency. The value of fb and in turn R1C1 and RFCF
values
should be selected such that fa<fb<fc where
and fc is the unity gain bandwidth of the opamp. Thus the input signal will be differentiated properly if the time period of the input signal is larger
than or equal to RFC1
i.e. 
.
Procedure
EDWin 2000 -> Schematic Editor: The circuit diagram is drawn by loading components from the library. Wiring and proper net assignment has
been made. The values are assigned for relevant components.
EDWin 2000 -> Mixed Mode Simulator: The circuit is preprocessed. Waveform markers are placed at the input and output of the circuit. GND net is
set as reference net. The Transient Analysis parameters have been set. The Transient Analysis is executed and output waveform is observed in
the Waveform Viewer.
Result
The output waveform may be observed in the waveform viewer.
