Diagnosing and troubleshooting
10.4 Noise problems
HydroRanger 200 HMI
286 Operating Instructions, 06/2018, A5E36281317-AC
Displays Error and
tb:(#).
Wrong transducer selected
Transducer selector
Verify transducer type and re-enter value.
Transducer connected in
“two-wire” method.
Do not tie white and shield together. Use all
three terminal blocks.
Transducer connected
Reverse black and white wires on terminal
Displays EEEE Value too large to display
in 4 or 5 characters.
Select larger units [ Units (2.1.1.) (Page 162)],
or lower convert reading [Convert reading
Reading fluctuates
while material level is
Incorrect measurement
stabilization.
Alter rate of response [Response rate (2.3.4.)
(Page 174)] or rate filter [Rate filter (2.3.5.)
Reading is fixed, re-
gardless of the actual
material level.
Transducer acoustic beam
obstructed, standpipe too
narrow, or transducer
ringing (reads over 100%).
Relocate and / or re-aim transducer at materi-
Proceed to Measurement difficulties
Material level reported
is always incorrect by
the same amount.
Incorrect empty (zero)
reference for level opera-
tion [Sensor Mode (2.1.3.)
See Empty (2.2.4.) (Page 170), Offset reading
(2.12.6.) (Page 238), Sensor offset (2.2.5.)
(Page 171), Offset correction (2.11.1.9.)
Measurement accuracy
improves as level nears
transducer.
Incorrect Sound Velocity
used for distance calcula-
tion.
Use a transducer with a built-in temperature
sensor or a TS-3 temperature sensor.
See Sound velocity (2.11.1.2.) (Page 218).
Reading is erratic, with
little or no relation to
material level.
True echo too weak or
wrong echo being pro-
cessed.
Relocate and/or re-aim transducer at material.
Check noise parameters. See Noise problems
Incorrect readings can be the result of noise problems, either acoustic or electrical, in the
application. The noise present at the input to the ultrasonic receiver can be determined by
viewing the echo profile locally via the HMI, or alternatively, using remote software such
SIMATIC PDM. View also parameters Noise Average (3.2.11.5.) (Page 263) and Noise Peak
(3.2.11.6.) (Page 263). In general, the most useful value is the average noise.
With no transducer attached the noise is under 5 dB. This is often called the noise floor. If
the value with a transducer attached is greater than 5 dB, signal processing problems can
occur. High noise decreases the maximum distance that can be measured. The exact
relationship between noise and maximum distance is dependent on the transducer type and
the material being measured. An average noise level greater than 30 dB may be cause for
concern if the installed transducers maximum operation range matches the range of the
application (e.g. 8 m application using an 8 m XRS-5). Using a larger transducer with greater
transmitted energy should help to improve performance in a noise condition.
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