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The Node-Voltage Method Of Circuit Analysis

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Lab# 1 The Node-Voltage Method of Circuit Analysis

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Abstract

This report used KCL and Ohm's law to calculate the node voltages and compare them to the measured node voltages after building the circuit. The calculations were obtained by hand using node analysis. The experiment was simulated on PSpice and the results were verified to hand calculations. The circuit was built in the lab and the results were measured with a digital multi-meter and compared to the calculated values, and the measured percent error in the measurements were found to be within 1 percent error.

1.0 Introduction

Kirchoff's Current Law (KCL), and Ohm's law are use to find the three node-voltages, vA, vB, and, vC, of the given circuit (See Figure 1 below). KCL uses node currents and then applies Ohm's law to derive an equation in terms of node voltages, resistors, and source voltages. These two laws are only needed when there is: known resistors, and known source voltage. This circuit is a simple circuit because there is only one source voltage and no voltage source shared between two loops.

Figure 1: Circuit Layout

Section 2 goes over the Ohm's Law and KCL. Section 3 solves the circuit using calculations by hand and generates equations for needed to solve for node voltages. Section 4 uses PSpice simulation to obtain values of node voltage. Section 5 is the build and measure of the circuit, and percent error comparison. Section 6 is the discussion section of the results, and section 7 is the conclusion of the results.

2.0 Linear Circuit Analysis Techniques

This section explains two circuit laws needed to analyze the circuit.

2.1 Ohm's Law

Ohm's law is used to relate voltage across an element, current through it, and resistance of the element. Ohm's law is expressed in (1), where v is voltage across (volts), I is current through (amps), and R is resistance (ohms). The equation follows the passive sign convention.

(1)

2.2 Kirchoff's Current Law

Kirchoff's Current Law yields an equation of all currents into and out of a single node. KCL states, the sum of all current into a node equals the sum of all currents leaving a node, shown in (2).

(2)

3.0 Node-Voltage Analysis

The circuit in Figure 1 was given and elemental voltages and currents were assigned arbitrarily, but satisfying passive sign convention, (elemental current entering into the positive terminal of the elemental voltages), and vD is assigned to the node on the negative side of vs, as a zero voltage reference node, yielding Figure 2 below.

At node A: KCL can be applied yielding

. (3)

The equation can be rewritten using Ohms Law to

(4)

and then written as . (5)

At node B: KCL can be applied yielding

. (6)

The equation can be rewritten using Ohms Law to

(7)

and then written as

. (8) At node C: KCL can be applied yielding

. (9)

The equation can be rewritten using Ohms Law to

(10)

and then written as

. (11)

The resistors and voltage source used are given below in Table 1.

Table 1: Nominal and Measured Resistor Values

Resistor Nominal (Ω) Measured (Ω)

R1 820 806

R2 470 465

R3 1,000 986

R4 680 672

R5 10,000 9,888

R6 2,200 2,170

R7 3,300 3,275

...

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