Scribd
Upload
140 views2 pages

Practical Work 2A

The document describes a practical work assignment to simulate an analog circuit using Circuit Maker software. The objectives are to understand circuit design and simulation, conduct DC circuit simulation, and compare theoretical and simulated values. The procedure involves calculating theoretical values, drawing the circuit, setting component parameters, running DC and multimeter simulations, and recording simulated values to compare with theory.

Uploaded by

SP Ng
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as DOCX, PDF, TXT or read online on Scribd
140 views2 pages

Practical Work 2A

The document describes a practical work assignment to simulate an analog circuit using Circuit Maker software. The objectives are to understand circuit design and simulation, conduct DC circuit simulation, and compare theoretical and simulated values. The procedure involves calculating theoretical values, drawing the circuit, setting component parameters, running DC and multimeter simulations, and recording simulated values to compare with theory.

Uploaded by

SP Ng
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as DOCX, PDF, TXT or read online on Scribd
You are on page 1/ 2

ELECTRONIC COMPUTER AIDED DESIGN

NAME :
MATRIX NO :

ASSESMENT : PRACTICAL WORK 2A

TITLE : SIMULATION OF ANALOGUE CIRCUITS


OBJECTIVE : 1.To understand method of designing and simulating circuit by using Circuit Maker .
2.To conduct simulation of DC circuit.
3.To understand function of DC and multimeter in simulation circuit.
4.To compare the theoretical values with the simulation results.

EQUIPMENT :
1. Personal Computer (PC )
2. Circuit Maker Software
THEORY :
i) VR1=[R1/(R1+R2)]Vin ii) VR2 = [R2/(R1+R2)]Vin iii) P = iV @ i2R
iv)V= iR
PROCEDURE :

1 . Refer to Figure 1 (Resistor Circuit) and Table 1, calculate the value of voltage (V) and current (i) of the circuit. Sketch
graph iin versus Vin and VR2 versus Vin for this circuit.
2 . Note and record the theoretical value above in Table 1 .
3 . Draw the circuit of figure 1 (Resistor Circuit) below by using icon, menu and understanding of instruction given.

Figure 1 : Resistor Circuit


4 . Find and change the parameter of the component as stated in the circuit (Figure 1).
(Devices → Browes/Search) or
5 . Show pin dots and node number of the circuit (Option → Show pin dotes and node numbers ) 6 . Write the node number
of the circuit in box given.
7 . Do simulation of the analogue circuit for DC and multimeter (Simulation→analog/digital→ analog mode, Analyses
setup→√ multimeter,√dc)
8 . Set the value of parameter for each activate analysis (Simulation→ Analyses setup → click→ multimeter,dc).
9 . Show variable name of each node component (Simulation →Display Variable Name).
10. RUN the circuit and observe the simulated value of voltage (V) and current (i) for each node. (Simulation→analyses
setup→analog option→voltage and current → RUN→Probe tool) or

11. Save the circuit and RUN again. Record the simulated value of voltage (V) and current (i) reading in Table 1 and print
the circuit.
MULTIMETER SIMULATION DC ANALYSIS SIMULATION
PARAMETER THEORY
PROBE VALUE % ERROR PROBE VALUE % ERROR

Vin (V) Iin (A) VR1 (V) VR2 (mV) Iin (l^A) VR1 (V) VR2 (mV) Iin (l^A) VR1 (V) VR2 (mV) In (l^A) VR1 (V) VR2 (mV) 'in (l^A) VR1 (V) VR2 (mV)

10

You might also like