English
RFQ

Download the app

Op Amp Differentiator

Electrical4u

03/13/2024

Differentiator is an op amp based circuit, whose output signal is proportional to differentiation of input signal.

An op amp differentiator is basically an inverting amplifier with a capacitor of suitable value at its input terminal. The figure below shows the basic circuit diagram of an op amp differentiator.

We will first assume that the op amp used here is an ideal op amp. We know that the voltage at both inverting and non inverting terminals of an ideal op amp is same. As the electric potential at non inverting terminal is zero since it is grounded. The electric potential of inverting terminal is also zero, as the opamp is ideal. Because, we know that the electric potential at non – inverting and inverting terminals. It is also known to us that the current entering through inverting and non inverting terminal of an ideal op amp is zero.

Considering, these conditions of an ideal op amp, if we apply Kirchhoff Current Law at node 1 of the op amp differentiator circuit, we get,

The above equation shows that the output voltage is the derivative of the input voltage.

Statement: Respect the original, good articles worth sharing, if there is infringement please contact delete.

Topics

Circuit Theory Op-Amp Integrator

Electrical4u

Electrical4U is dedicated to the teaching and sharing of all things related to electrical and electronics engineering.

Current Division and Voltage Division Rule

Current Division and Voltage Division Rule

Current Division RuleA parallel circuit functions as a current divider, where the incoming current splits among all branches while the voltage across each branch remains constant. The Current Division Rule is used to determine the current through circuit impedances, as illustrated by the circuit below:The currentI splits intoI1 andI2 across two parallel branches with resistancesR1 andR2, whereVdenotes the voltage drop across both resistances. As is known,Then the equation of the current is writt

Mesh Current Analysis Method

Mesh Current Analysis Method

The Mesh Current Analysis Method is utilized to analyze and solve electrical networks with multiple sources or circuits comprising numerous meshes (loops) containing voltage or current sources. Also known as the Loop Current Method, this approach involves assuming a distinct current for each loop and determining the polarities of voltage drops across loop elements based on the assumed direction of the loop current.In mesh current analysis, the unknowns are the currents in different meshes, and t

Nodal Voltage Analysis Method

Nodal Voltage Analysis Method

Nodal Voltage AnalysisNodal voltage analysis is a method for solving electrical networks, particularly useful when all branch currents need to be computed. This approach determines voltages and currents by leveraging the nodes of a circuit.Anodeis a terminal where three or more circuit elements connect. Nodal analysis is commonly applied to networks with multiple parallel circuits sharing a common ground terminal, offering the advantage of requiring fewer equations to solve the circuit.Principle

Series Magnetic Circuit

Series Magnetic Circuit

Definition of Series Magnetic CircuitDefinition: A series magnetic circuit is defined as a magnetic pathway composed of multiple sections with varying dimensions and materials, all carrying the same magnetic field. Consider a circular coil or solenoid with distinct dimensional parameters, as illustrated in the figure below:Series Magnetic Circuit AnalysisA currentIflows through a solenoid withNturns wound around one section of a circular coil, inducing a flux Φ in the core.a₁, a₂, a₃: Cross-

Source professional electrical partners, experts, and explore smart grid & energy solutions.