10
OPERATING INSTRUCTIONS
Figure 3. Use of DC OFFSET Control
7
. A superimposed DC component can be added to the output
signal by engaging the
DC OFFSET
switch (14) to enable
operation of the
DC OFFSET
control (5). Rotation of this
control adds a positive or negative DC component to the output
signal. The DC component introduced is independent of the
OUTPUT LEVEL
control and can be varied by ±10 volts open
circuited or ±5 volts into 50 Ω. The DC Offset does not affect
the
TTL/CMOS
output jack. The effect of DC OFFSET is
shown in Fig. 3.
CONSIDERATIONS
1.
Counterclockwise rotation of the
COARSE
frequency control
decreases the output frequency to approximately one-tenth of
the maximum for the range selected (10:1). For example, if the
10K range is selected and the
COARSE
frequency control is set
to full counterclockwise, the output frequency is approximately
1 kHz.
2.
It is advisable to set the
FINE
frequency control to the
approximate center of its rotation before setting the
COARSE
frequency control. This assures that the
FINE
control will not
reach its limit while trying to finalize the frequency setting.
3.
The
FINE
frequency control provides approximately ±5% fre-
quency deviation from the
COARSE
control setting. This
provides vernier adjustment to easily set the frequency to a
precise value.
4.
When the
1Hz
range is selected, the gate time is 10 seconds and
the display is updated once every 10 seconds. The result of a
frequency change will not be displayed until 10 seconds later.
Adjust the frequency in progressively smaller steps, waiting for
the display to update until the desired frequency is obtained.
5. When outputting square waves or when using the TTL
output, terminate the cable into 50 Ω to minimize
ringing. Also, keep cables as short as possible.
Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com
