Allied Radio Knight-Kit 83 Y 140 조립 설명서 - 페이지 7
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A-C
voltage measurements
can
be made
at any
frequency
from 25 cps through the audio range.
At
higher frequencies,
shunting capacitance
in the rec-
tifier causes readings to become increasingly low.
How
to Measure
D-C
Resistances
Caution:
Before making any resistance meas-
ee
.
2
.
urements in a circuit, make certain that the power
is turned off.
It is also advisable to discharge
any capacitors in the part of the circuits in which
resistance measurements
are to be made.
Turn the Function
Switch to one of the "' 1 "
positions.
Plug the black test lead into the ''COM''
jack and the red lead into the ""V. ©..A'' jack.
Con-
nect the prod ends of these two test leads together.
Turn the '' 1. ADJ'' knob until meter reads full scale
deflection, at which the pointer lines up with zero on
the ohms scale.
Turn Function Switch to such '* (L"' position that
the meter will read somewhere in, or as near as pos-
sible
to,
the
center
portion
of the
scale
when
the
measurement is made.
Recheck if the meter deflects
full scale when the two test lead probes are connected
together.
Connect
the test prods respectively to the termi-
nals of the resistance to be measured and observe the
meter
reading.
After
any
change
of ranges,
the
"<0. ADJ'? should be rechecked.
The value of the
measured resistance can be determined by multiplying
the ohms scale meter reading by the factor indicated
by the Function Switch knob,
The following paragraph shows the d-c resistance
range
covered,
and the center-scale
reading for each
Function Switch setting.
If the Function
Switch is in "'fl X1" position,
the 0-1 K ohm range is covered; center scale reading
is 12 ohms.
Read scale directly.
If the Function
Switch is in the "'{L X100" position, the 100 ohms -
100 K ohms range is covered.
Center scale reading is
1200 ohms.
Multiply scale yeading by 100.
I£ the
Function Switch is in the "0
X10 K'' position, the
10 K - 10 Meg range is covered.
Center scale reading
is 120 K ohms.
Multiply scale reading by 10,000.
It always
should
be kept in mind
that in the
measurement
of resistance a current is made to flow
through the unknown resistance.
Usually this current
is so smal] that it can be neglected.
However on the
lowest ohms range (X1) the halfscale reading is 12
ohms.
That means
a current of 65 milliamperes is
flowing through
the unknown
reaistor.
If lower re-
sistances
than
12 ohms
are
measured,
the current
through them may be as high as 130 ma.
Therefore it
is good practice
to consider
the current
flow first
when measuring the d-c resistance of a device which
can safely pass only low currents without burning out.
For all other cases no damage will result as long as
the
ohmmeter
current
does
not
exceed
the current
rating of the unknown resistance.
How to Measure
Direct Current
Never connect the test leads across any source of
voltage directly when the VOM is used as a current
meter, otherwise the meter will be damaged.
Instead,
always
connect
the meter
in series
with the load.
Plug the black test lead into the
"'COM"' jack and the
red lead into the "V. 1. .A'' jack.
Tum
the Function Switch to any "MA" or "A''
position appropriate.
It is good practice to start with
highest range and then reset switch to obtain a con-
venient reading.
16
li currents in the order of 1 to 10 amperes are to
be measured, the red lead has to be plugged into the
"10 A"? jack.
Open the circuit in which the current
is to be measured.
Connect the black test lead probe
to the negative side of the circuit break, and the red
test lead probe to the positive side.
Connect the circuit under test to its power source.
The resulting meter deflection is in a direct proportion
to the unknown current.
To find the magnitude of the
current, the meter reading has to be multiplied by the
factor indicated by the Function Switch.
The listing
below gives the different ranges covered, the scale on
which the meter reading is done, and the multiplication
factor of each current range.
For
0-0.1
ma
range
use
the ''DC
10" scale.
Divide meter scale reading by 100.
Each minor scale
division equals 0.002 ma.
For 0-10 ma range use the ""DC 10" scale.
Read
meter
scale
directly.
Each
minor
scale division
equals 0.2 ma.
For the 0-100 ma range use the 'DC
10" scale.
Multiply meter scale reading by 10.
Each minor scale
division equals 2 ma.
For
the 0-1 a range use
the "'DC
10' scale.
Divide meter scale reading by 10.
Each minor scale
division equals 0.02 a.
For the 0-10 a range use "'DC 10"? scale.
Read
scale
directly.
Each
minor
scale
division
equals
0.2 a.
If the meter pointer is deflected to the left of the
scale, the test probes are connected in wrong polarity.
Turn
off the power,
reverse
the meter
lead connec-
tions, and turn on the power again.
How to Use the VOM
as an Output Meter
Sometimes
it is necessary
to measure
an a-c
voltage
which
is superimposed
on
a d-c voltage.
Correct measurement
of the a-c component in such a
case is possible by use of the OUTPUT circuit of the
VOM, in which a d-c blocking capacitor is employed
to keep
direct
current
from
the meter,
which then
indicates only the a-c voltage.
To measure voltages of this nature, plug the black
test lead into the ''COM'' jack and the red test lead
into the "OUTPUT" jack. Then proceed as indicated
under
''How to Measure
A-C Voltages''.
Since the
5000 v a-c range would require a change in the red
lead
connection,
the blocking
capacitor,
necessary
for output measurement would not be connected in the
meter circuit, therefore this a-c range can not be used
for output measurements, unless d-c is kept out by an
external capacitor or isolating transformer.
When
a-c voltages
are measured
with the output
meter,
the impedance
of the d-c blocking capacitor
will
have
an
effect
on the accuracy
of the meter
reading.
The
error which
occurs
varies
with the
frequency of the applied voltage, and becomes negli-
gible on the 50 v scale and higher. The actual voltage
will then be higher than the measured
value.
The
higher the frequency the smaller this error will become.
How
to Measure
Output
Voltages
in DB
(Decibels)
A-C output voltages are often measured
in units
called
decibels,
which
are used to indicate power
levels in amplifiers or general telephone work.
The
DB scale (bottom meter scale) is based on the voltage
developed
across
a 500-ohm
line when 0.006 watts
are dissipated.
This voltage is a reference taken as
0 db.
Such a voltage deflects the pointer to 1.73 v