Section 10. Troubleshooting
557
10.5.3.1.1 Voltage Measurements
The CR6 has the following user-selectable voltage ranges: ±5000 mV, ±1000 mV,
and ±200 mV. Input signals that exceed these ranges result in an over-range
indicated by a
NAN
for the measured result. With auto range to automatically
select the best input range, a
NAN
indicates that either one or both of the two
measurements in the auto-range sequence over ranged. See
Troubleshooting —
Auto Self-Calibration Errors
.
A voltage input not connected to a sensor is floating and the resulting measured
voltage often remains near the voltage of the previous measurement. Floating
measurements tend to wander in time, and can mimic a valid measurement. The
C
(open input detect/common-mode null) range-code option is used to force a
NAN result for open (floating) inputs.
10.5.3.1.2 SDI-12 Measurements
NAN
is loaded into the first
SDI12Recorder()
variable under the following
conditions:
•
CR6 is busy with terminal commands
•
When the command is an invalid command.
•
When the sensor aborts with CR LF and there is no data.
•
When
0
is returned for the number of values in response to the
M!
or
C!
command.
10.5.3.2 Floating-Point Math, NAN, and ±INF
Related Topics:
•
Floating-Point Arithmetic
(p. 220)
•
Floating-Point Math, NAN, and ±INF
(p. 557)
•
TABLE: Data Types in Variable Memory
(p. 187)
Table
Math Expressions and CRBasic Results
(p. 558)
lists math expressions, their
CRBasic form, and IEEE floating point-math result loaded into variables declared
as FLOAT or STRING.
10.5.3.3 Data Types, NAN, and ±INF
NAN
and
±INF
are presented differently depending on the declared-variable data
type. Further, they are recorded differently depending on the final-memory data
type chosen compounded with the declared-variable data type used as the source
(
TABLE: Variable and FS Data Types with NAN and ±INF
(p. 558)
). For example,
INF
, in a variable declared
As LONG
, is represented by the integer
–
2147483648
. When that variable is used as the source, the final-memory word
when sampled as UINT2 is stored as 0.
Summary of Contents for CR6 Series
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Page 76: ...Section 5 Overview 76 FIGURE 20 Half Bridge Wiring Example Wind Vane Potentiometer ...
Page 80: ...Section 5 Overview 80 FIGURE 23 Pulse Input Wiring Example Anemometer ...
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Page 454: ...Section 8 Operation 454 FIGURE 104 Narrow Sweep High Noise ...
Page 459: ...Section 8 Operation 459 FIGURE 106 Vibrating Wire Sensor Calibration Report ...
Page 535: ...Section 8 Operation 535 8 11 2 Data Display FIGURE 121 CR1000KD Displaying Data ...
Page 537: ...Section 8 Operation 537 FIGURE 123 CR1000KD Real Time Custom ...
Page 538: ...Section 8 Operation 538 8 11 2 3 Final Storage Data FIGURE 124 CR1000KD Final Storage Data ...
Page 539: ...Section 8 Operation 539 8 11 3 Run Stop Program FIGURE 125 CR1000KD Run Stop Program ...
Page 541: ...Section 8 Operation 541 FIGURE 127 CR1000KD File Edit ...
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Page 610: ...Section 11 Glossary 610 FIGURE 137 Relationships of Accuracy Precision and Resolution ...
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