3-12. projected calibration at, 3-1. actual ma1, 3-2. actual ma2 – Yokogawa EXAxt SC450 4-Wire Analyzer for Conductivity/Resistivity User Manual

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IM 12D08N05-01E

4-3-1. Actual mA1 = the current output in mA of

the first current output, which is defined as mA1.

The range and function of this mA output can be

set in:

Routing: Commissioning >> Output setup

>> mA1

4-3-2. Actual mA2 = the current output in mA of

the second current output, which is defined as

mA2. The range and function of this mA output

can be set in:

Routing: Commissioning >> Output setup

>> mA2

4-3-3. S1/S2/S3/S4 = the current state of

contacts 1 to 4. The functions and settings of the

contacts can be set in:

Routing: Commissioning >> Output setup

>> S1/S2/S3/S4

4-3-4. C.C. (factory) = the nominal cell constant

as determined by the factory calibration during

production. This value is set during commission-

ing, and is found on the nameplate of the sensor

or the calibration certificate.

Routing: Commissioning >> Measurement

setup >> Configure sensor

4-3-5. C.C. (adjusted) = the calibrated cell

constant. When the cell constant of the system is

adjusted on-line by grab sample or by calibrated

solution technique, the new cell constant is

recorded here. This value should not deviate

greatly from the original factory calibration. In

the event that there is a significant discrepancy

seen between this reading and the C.C. (factory)

value, the sensor should be checked for damage

and cleanliness.

Routing is via the “Calibration” menu.

4-3-6. Temp. comp 1 = the chosen temperature

compensation method for the primary measure-

ment.

Routing: Commissioning >> Measurement

setup >> Temp.compensation

4-3-7. Temp. comp 2 = the chosen temperature

compensation method for the secondary meas-

urement.

Note: This does not imply two separate meas-

urements. There is the possibility to set two

separate compensation methods so that two

different stages of the same process can be

monitored accurately. An example is process/

cleaning fluid interface.

Routing: Commissioning >> Measurement

setup >> Temp.compensation

4-3-8. Polarization = the polarization is meas-

ured by the input circuitry. Monitoring this figure

gives a guide to progressive fouling of the sensor.

4-3-9. Sensor ohms = the input measurement

as an uncompensated resistance value.

4-3-10. Last calibrated at = the date of the last

calibration

4-3-11. Calibration due at = the date scheduled

for the next calibration. This field is determined by

the calibration interval.

Routing: Commissioning >> Measurement

setup >> Calibration settings

4-3-12. Projected calibration at =

a diagnostic output, showing a time frame when

the unit should next be maintained according to

the sophisticated self-diagnostic tools built into

the EXAxt software (for example >12 months,

3-6 months or 0-1 month).

The analyzer checks the rate of polarization

every 24 hours. If a clear increase of polariza-

tion is observed, the user is notified when a

next calibration should take place. Prior to

calibration the sensor should be well cleaned

and rinsed.

4-3-13. HART ID = a part of the HART device ID

(descriptor)

4-3-14. Software revision = the revision level of

the software in the instrument.