Voltage drop test – Cub Cadet RZT-S Series User Manual

Electrical System

95

Voltage Drop Test

To review:

•

Ohm’s law states that it takes voltage to push
current through a resistance.

•

Kirchhoff’s voltage law states that the sum of all
the voltage drops equals the source voltage.

•

Combining those two laws, we see that any
restriction in a circuit (e.g.: loose connector
damaged wire, or corroded terminal) will use up
some voltage as the current is pushed through.

•

A voltage drop test is a way of looking for that
voltage.

•

Because electricity needs to complete a full cir-
cle (circuit), voltage drop tests are useful on
both the positive or the negative side of the sys-
tem.

•

This text will begin diagnosis from the negative
side. Bad grounds are responsible for as many
electrical failures as the positive side of the sys-
tem, yet the ground side is frequently neglected
by technicians. See Figure 7.41.

NOTE: Ultimately, all current will find its way from the negative battery post to the positive battery post.

To check ground-side voltage drop: set-up a multimeter to measure 12V DC.

1.

Make a good electrical connection between the black (-) probe and the negative post on the battery.

2.

Make a good electrical connection between the red (+) probe and the suspect point of ground.

3.

Power-up the circuit in question.

4.

The voltage indicated on the meter is the voltage that is being used to pass current through a resistance in the
circuit.

5.

Voltage drop on a good circuit should be less than 0.1 volts. A voltage drop reading on the meter of greater
than 0.2 volts indicates a fairly substantial problem that demands attention.

•

As an example, if the starter solenoid does not
engage properly, check for voltage drop
between the ground point for the starter sole-
noid and the negative post on the battery.
See Figure 7.42.

•

With the starter engaged, this machine exhib-
ited a voltage-drop reading of 0.308 volts, indi-
cating a poor ground connection.

Figure 7.41

Figure 7.42