![]() A half adder circuit has two inputs A and B and two outputs S representing sum and C representing carry. The half adder produces a sum and a carry value which are both binary digits. THEORY: A half adder is a logical circuit that performs an additional operation on two binary digits. 3) Select analysis type which can be different for different experiments.ĥ EXPERIMENT NO.2 AIM: To design the circuit of half adder. 4) After placing all the components join them through the wire and you will obtain the required circuit. 3) Select it as many times as rotation is required. 2) Select rotate and it will rotate by 90 degrees. To change the direction of any of selected component:- 1) Place it on the required place and right click on it. 5) Box with the required name will be placed. 3) Right click on it 4) Edit properties and click OK. To change the name of any component:- 1) Select NI on the right hand side of the window (not alias). 4) Change the values of desired components. To change the value of any component:- 1) Select the component. 3) Name = V+ or V- 4) While using a dc source always use a DC source. To select the arrow in op-amp as a filter:- 1) Select the (PWR/Q) from the right hand side of the window. 2) Then click on source library.Ĥ The use of ground:- 10) Click on GND on the right hand side of the window. The use of source:- 1) Click on place part on the right hand side of the window. 2) Click on the EVAL library and select the required transistor (E.G. The use of Transistor:- 1) Click on place part on the right hand side of the window. 2) Then click on analog library and select the required resistor and capacitor. Analog Circuits Procedure for simulation of circuits on ORCAD capture tool: The use of resistors and capacitors:- 1) Click on place part on the right hand side of the window. 9) Lastly click the Run button in Pspice or Run option to see the resulting output. V place voltage where we need to see the outputs. Choose the option and initialize all flip-flops to zero, then click on OK. 8) In the next window choose options and then choose gate level simulation. 7) Enter the name of the profile and then click on OK. 6) Now choose Pspice option on top toolbar and click on new simulation profile. 5) Now realize the circuits using proper components. 4) Next pop-up window opens Pspice project on this choose a blank project option, then click OK. 3) Write the name of the project and choose the location to store it, then click OK and make sure to choose analog or mixed A/D option and then again click OK. 2) Click on file, then on new, and then click on project. Digital Circuits Procedure for simulation of circuits on ORCAD capture tool: 1) Click the capture lite icon from desktop or from the start menu. Design Based Open Ended experimen t** PR (10) Viva Viva (5) 5ģ EXPERIMENT NO.1 AIM: Simulation using ORCAD. 9 Study of 8085 Microprocessor Study of instruction set of 8085 microprocessor To simulate and study 2:4 and 3:8 decoder. 7 To simulate the common bus using tri-state buffers and decoder To simulate the common bus using multiplexers.Ģ 9. 6 To simulate and EXPERIMENT study the tri-state buffer 7. 5 To simulate four bit binary MANDATOR adder subtractor Y 6. LR (10) 2 To simulate half adder circuit 3. ![]() Marks Marks obtaine d Signature of Faculty 1. Name of Experiment Date of Allotment of experiment Date of Evaluation Max. 1 INDEX S.No Category of Assignme nt Code Exp eri men t No.
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