741 Non-Inverting Amplifiers

  Aim

  To design and simulate Summing and Averaging Amplifier circuits using 741.

  Components

  Theory

   An operational amplifier is a direct coupled high gain amplifier consisting of one or more differential amplifiers and usually followed by a

   level translator and an output stage which is usually a push-pull or push-pull complementary symmetry pair.

   An operational amplifier can be used to amplify ac as well as dc input signals and was originally designed for computing such mathematical

   functions as addition, subtraction, multiplication and integration.

   An opamp can be configured in either the inverting or in the non-inverting mode. The circuit shown below is called a non-inverting amplifier

   since the input voltage sources and resistors are connected to the non-inverting terminal of the op-amp. The circuit can be used either as

   a summing or an averaging amplifier through the selection of appropriate values of resistors, R₁ and R_F. The input resistance R_iF of the

   non-inverting amplifier is very large and is given by

   In order to verify the functions of the circuit, the expression for the output voltage can be obtained as follows. Applying the superposition theorem,

   the voltage V₁ at the non-inverting terminal is

   Hence the output voltage V_o is

 Summing Amplifier

   The Summing Amplifier produced using 741 is the circuit that sums up all the input voltages. As evident from equation 4 if the gain

   is equal to the number

   of inputs, the output voltage becomes equal to the sum of all input voltages. That is, if , then .

   Hence the circuit is called a non-inverting summing amplifier.

 Averaging Amplifier

   The output of the non-inverting amplifier as obtained from equation 4 is equal to the average of all the input voltages times the gain of the circuit, 

  hence the name averaging amplifier. Depending on the application requirement the gain can be set to a specific

   value. If the gain is 1 then the output voltage will be equal to the average of all input voltages. One special feature to be noted is that the non-

   inverting input voltage V₁ is the average of all the inputs.

  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 in 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.