Series – Parallel Dc Circuits

piquantdistractedΗλεκτρονική - Συσκευές

5 Οκτ 2013 (πριν από 3 χρόνια και 6 μήνες)

104 εμφανίσεις

Jimmie Fouts

Houston County Career Academy

OBJECTIVES


Review individual series and parallel DC circuit calculations and
operation


Determine the equivalent circuit resistance for a given
combination circuit


Determine the voltage drops in a circuit


Determine the current values in a circuit


Apply combination circuit theory to troubleshoot a combination
circuit


REVIEW : DC SERIES CIRCUIT CALCULATION


R1



R2

10




30


Rt = R1 + R2 = 10


+ 30


= 40


Es = 20 volts

It = Es / Rt = 20 volts / 40


= 0.5 amps

I1 = I2 = It

E1 = R1 X I1 = 10 ohm X 0.5 amp = 5 volts

E2 = R2 X I2 = 30 ohm X 0.5 amp = 15 volts

REVIEW: DC PARALLEL CIRCUIT CALCULATION

Es = 15 volts

R1


R2

10



30


DC COMBINATION CIRCUITS


Often called complex circuits


Not complicated when considered as
individual series and parallel circuits


E, I, & R solved using Ohm’s Law!

BASIC PROCEDURE FOR DC CALCULATIONS

Reduce the Complex Circuit to a Simple Equivalent



Reduce the circuit to Individual Series and Parallel Circuits



Perform Calculations on the Individual Circuits



Combine Calculations as Appropriate

COMBINATION CIRCUIT EXAMPLE

10

20

20

A 10 ohm resistor is

In series with two 20 ohm

resistors

Reduce to individual series

and parallel circuit

DETERMINE SIMPLE SERIES PARALLEL PARTS

In the parallel portion of the circuit,

the equivalent of two 20 ohm resistors

is 10 ohms

R1

R2

R3

Parallel Circuit Equivalent

Is 10 Ohms

COMBINE CALCULATIONS AS APPROPRIATE

The equivalent circuit is a

10 ohm resistor in series

with the equivalent circuit

resistor of 10 ohms

Rt = R1 + Re = 10 + 10

Rt = 20 ohms

R1

Re

10

10

Rt

USE OHMS LAW FOR CIRCUIT VALUES

Lets now apply a source voltage of

20 volts. The voltage drop across R1

will be 10 volts.

E = 20 volts

CALCULATIONS CONTINUED

CALCULATION OF PARALLEL CIRCUIT VALUES

R2

R3

Is calculated in the same manner

THE RESULTING CIRCUIT VALUES

A summary of the circuit values would therefore be:



ohms

ohms

ohms

= 20 volts

1 amp

10 volts

10 volts

0.5 amps

10 volts

0.5 amp

TROUBLESHOOTING COMBINATION CIRCUITS


Look for obvious damaged components


Take
voltage readings
of
individual
components (
observe safety requirements)


Look for an open or a short circuit condition


Check against
expected values


IMPORTANT SAFETY NOTE!

Before making any resistance measurements in
a circuit, ensure there NO power is being
supplied to the circuit! Failure to follow this
caution will likely result in equipment damage
.

CALCULATE EXPECTED VALUES!


It is important to first calculate the expected values before making
measurements using the meter!


Using the calculated values, prior to selecting the scale to use, will help prevent
meter damage.


Some things to consider:


An open across a resistance in a series circuit will result in a measurement of the
source voltage across the defective resistor.


An open across a resistance in a parallel circuit will be difficult to identify, without
calculating the expected value. Remember, the voltage across a parallel circuit is
the same on all legs of the circuit. An open on a parallel circuit leg will result in
the circuit exhibiting a greater resistance and larger voltage drop across the
parallel circuit.