3 strain calculations, Figure 94: deriving ∆v1, Table 66. straincalc() instruction equations – Campbell Scientific CR3000 Micrologger User Manual

Section 8. Operation

305

Figure 94: Deriving ∆V1

8.1.3.3 Strain Calculations

Read More! The FieldCalStrain() Demonstration Program

(p. 158)

section has

more information on strain calculations.

A principal use of the four-wire full bridge is the measurement of strain gages in
structural stress analysis. StrainCalc() calculates microstrain,

με, from an

appropriate formula for the particular strain bridge configuration used. All strain
gages supported by StrainCalc() use the full-bridge schematic. In strain-gage
parlance, "quarter bridge", "half bridge" and "full bridge" refer to the number of
active elements in the electronic full-bridge schematic: quarter-bridge strain gage
has one active element, half-bridge has two, full-bridge has four.

StrainCalc() requires a bridge configuration code. Table StrainCalc()
Instruction Equations

(p. 305)

shows the equation used by each configuration code.

Each code can be preceded by a negative sign (-). Use a positive code when the
bridge is configured so the output decreases with increasing strain. Use a
negative code when the bridge is configured so the output increases with
increasing strain. In the equations in table StrainCalc() Instruction Equations

(p.

305),

a negative code sets the polarity of V

r

to negative (-).

Table 66. StrainCalc() Instruction Equations

StrainCalc()

BrConfig Code

Configuration

1

Quarter-bridge strain gage:

2

Half-bridge strain gage. One gage parallel to strain, the other at 90° to
strain.