Signametrics
30
is
s a
infinite input impedance of the 2.4V DC range. On these ranges, an open
put will read whatever charge is associated with the signal conditioning of the DMM. As this electrical charge
Note: The SM2060 front panel powers up in DCV, 0.5s Aperture, 0 Read Interval and 240 V range. If the DMM
operated in Autorange, with an open input, it will switch between the 2.4V and 24V ranges every few seconds, a
range change occurs. This is perfectly normal with ultra high impedance DMM’s such as the SM2060. This
phenomenon is caused by the virtually
in
changes, the SM2060 will change ranges, causing the range switching. This is normal.
3.6 Using the Control Panel
The Control Panel for the SM2064. The three main groups include Measure, Source and
Figure 3-2
.
nge buttons. The Range but
ut are in the software.
bsequent readings. This is a very important function when making low-level DCV measurements, or in 2W
Ω
.
Ra
tons are context sensitive such that only “240m, 2.4, 24, 240 and 330
he software command language
l set of capabilities. Some of the functions are not included in the control panel,
appear when in AC Voltage Function is selected, and 2.4m, 24m, 240m and 2.4 appear when AC
Current functions is selected, etc.
Note: All of the controls described below correspond to their respective software function, which can be invoked
within your control software or as objects in a visual programming environment. T
f the SM2060 provides a powerfu
o
b
DC/AC
This function switches between DC and AC. This is applicable for the following DMM functions:
Voltage, Current, and Voltage-Source. If Voltage-Source is the function presently in use, the Source control under
the Tools menu can be used to set frequency and amplitude in ACV, and amplitude only in DCV and DCI.
Relative
This is the Relative function. When activated, the last reading is stored and subtracted from all
su
For example, when using 2W
Ω
, you can null out lead resistance by shorting the leads together and clicking on
Relative.
When making low level DC voltage measurements (e.g., in the
µ
V region), first apply a copper short to
the
V,
Ω
+
&
-
input terminals, allow the reading to stabilize for a few seconds, and click on
Relative
. This will
correct for any offsets internal to the SM2060. The
Relative
button can also be used in the Percent and dB
deviation displays (shown below), which are activated using the
Tools
in the top menu.
Aperture Box:
Controls the SM2060 reading aperture. As aperture decreases, the measurement noise increas
For best accuracy set to the longest aperture acceptable for the application. Also consider the line frequency (50
es.
/60
Hz) of operation when setting it, as certain apertures have better noise rejection at either 50 or 60 Hz. (See
The Min/Max box can be used to analyze variations in terms of Min, Max,
Percent and dBV. This display can be activated by selecting the
Min/Max/Deviation from the Tools menue. For instance, testing a circuit
bandwidth with an input of 1V RMS, activate the Relative function with the
frequency set to 100Hz, than sweep gradually the frequency, and monitor the
percent deviation as well as the dBV error and capture any response anomalies
with the Min/Max display. The left display indicates peaking of 2.468% (0.21
dBV) and maximum peaking in the response of +56.24mV and a notch of –
10.79mV from the reference at 100Hz.
