|
Ambient Conditions |
The conditions
(humidity, pressure, temperature, etc.) of the medium surrounding the load
cell. |
|
Ambient Temperature |
The temperature of the medium
surrounding the load cell. |
|
Angular Load Eccentric |
A load applied eccentric with
the primary axis at the point of application and at some angle with respect
to the primary axis. |
|
Angular Load Concentric |
A load applied concentric with
the Primary axis at the point of application and at some angle with respect
to the Primary axis. |
|
Axial Load |
A load applied along or
parallel to and concentric with the primary axis. |
|
Calibration |
The comparison of load cell
outputs against standard test loads. |
|
Calibration Curve |
A record (graph) of the
comparison of the load cell outputs against standard test loads. |
|
Combined Error |
(Non linearity and Hysteresis)
The maximum deviation from the straight line drawn between original no-load
and rated load outputs expressed as percentage of the rated output and
measured on both increasing and decreasing loads. |
|
Compensation |
The utilization of
supplementary devices, materials, or process to minimize known sources of
error. |
|
Creep |
The change in load cell output
occurring with time while under load and with all environmental conditions
and other variables remaining constant. |
|
Creep Recovery |
The change in no-load output
occurring with time after removal of A load which had been applied for a
specific period of time. Usually measured over a specific time period
immediately following removal of rated load and expressed as a percent of
rated output over a specific period of time. |
|
Deflection |
The change of length along the
primary axis of the load cell between no-load and rated load conditions.
|
|
Drift |
A random change in output
under constant load conditions. |
|
Eccentric Load |
Any load applied parallel but
not concentric with the primary axis. |
|
Error |
The algebraic difference
between the indicated and true value of the load being measured. |
|
Excitation, Electrical |
The voltage or current applied
to the input terminals of the load Cell. |
|
Frequency Response |
The range of frequencies over
which the load cell output will follow the sinusoidally varying mechanical
input within specified Limits. |
|
Hysteresis |
The maximum difference between
load cell output readings for the same applied load; one reading obtained by
increasing the load from zero and the other by decreasing the load from
rated output. |
|
Insulation Resistance |
The dc resistance measured
between the load cell circuit and the load cell structure. Normally measured
at fifty volts and under standard test conditions |
|
Load |
The weight or force applied to
the load cell. |
|
Load Cell |
A device which produces an
output signal proportional to the applied weight or force. |
|
Natural Frequency |
The frequency of free
oscillations under no-load load conditions. |
|
Nonlinearity |
The maximum deviation of the
calibration curve from a straight line drawn between the no-load and rated
outputs; expressed as a percentage of the rated output and measured on
increasing load only. |
|
Output |
The signal (voltage, current,
pressure, etc.) produced by the load cell. Where the output is directly
proportional to excitation, the signal must be expressed in terms of volts
per volt, per ampere, etc., of excitation. |
|
Output, Rated |
The algebraic difference
between the outputs at no-load an at rated load. |
|
Overload Rating, Safe |
The maximum load in percent of
rated capacity which can be applied without producing a permanent shift in
performance characteristics behond those specified. |
|
Overload rating, Ultimate |
The maximum load in percent of
rated capacity which can be applied without producing a structural failure. |
|
Primary Axis |
The axis along which the load
cell is designed to be loaded; normally its geometric centerline. |
|
Rated Capacity (Rated Load) |
The maximum axial load the
load cell is designed to measure within its specifications. |
|
Reference Standard |
A force measuring device whose
characteristics are precisely known in relation to a primary standard. |
|
Repeatability |
The maximum difference between
load cell output readings for repeated loadings under identical loading and
environmental conditions. |
|
Resolution |
The smallest change in
mechanical input which produces a change in the output signal. |
|
Sensitivity
|
The ratio of the change in
output to the mechanical input. |
|
Shunt Calibration |
Electrical simulation of load
cell output by insertion of known shunt resistors between appropriate points
within the circuitry. |
|
Shunt-To- Load Correlation |
The difference in output
readings obtained through electrically simulated and actual applied loads.
|
|
Side Load |
Any load acting 90 degrees to
the primary axis at the point of axial load application |
|
Stabilization Period |
The time required to insure
that any further change in the parameter being measured is tolerable. |
|
Standard Test Conditions |
The environmental conditions
under which measurements should be made when measurements under any other
condition may result in disagreement between various observers at different
times and places. These conditions are as follows: Temperature 23 degrees
+or- 2 degrees C (73.4 degrees +or- 3.6 degrees F |
|
Temperature Effect On Rated Output |
The change in rated output due
to a change in ambient temperature. |
|
Temperature Range Compensated |
The range of temperature over which the
load cell is compensated to maintain rated output and zero balance within
specific limits. |
|
Temperature Range Safe |
The extremes of temperature within which
the load cell will operate within permanent adverse change to any of its
performance characteristics. |
|
Terminal Resistance Corner To Corner |
The resistance of the load cell circuit
measured at specific adjacent bridge terminals at standard temperature, with
no load applied, and with the excitation and output terminals
open-circuited. |
|
Terminal Resistance Input |
The resistance of the load cell circuit
measured at the excitation terminals at standard temperature, with no load
applied and with the output terminals open-circuited. |
