3-3. temperature compensation functions, 3-3. temperature compensation functions -16 – Yokogawa EXA DC402 Dual-Channel Conductivity Analyzer User Manual

IM 12D08E02-01E

5-16 Parameter setting

5-3-3. Temperature compensation functions

Code 20

*T.R.°C

Choose a temperature to which the measured conductivity (or resistivity) value

must be compensated to. Normally 25°C is used, therefore this temperature is

chosen as default value. Limitations for this setting are: 0 to 100 °C.

If *T.UNIT in code 11 is set to °F, default value is 77°F and the limitations are

32 - 212°F.

Code 21 *T.C.1/T.C.2 In addition to the procedure described in section 5-2-5 it is possible to adjust

the compensation factor directly. If the compensation factor of the sample liquid

is known from laboratory experiments or has been previously determined, it

can be introduced here, for sensor 1 and/or sensor 2.

Adjust the value between 0.00 to 3.50 % per °C. In combination with reference

temperature setting in code 20 a linear compensation function is obtained,

suitable when enabled as in section 5-2-6 the matrix may be selected for each

sensor input for all kinds of chemical solutions.

Code 22

*MATRX

The EXA is equipped with a matrix type algorithm for both inputs, accurate

temperature compensation in various applications. Select the range as close

as possible to the actual temperature/concentration range. The EXA will

compensate by interpolation and extrapolation. Consequently, there is no need

for a 100% coverage.

If 9 is selected the temperature compensation range for the adjustable matrix

must be configured in code 23. Next the specific conductivity values at the

different temperatures must be entered in codes 24 to 28. See section 5-2-6 for

how to enable MATRIX compensation.

Code 23 *T1, *T2, *T3, Set the matrix compensation range. It is not necessary to enter equal

*T4 & *T5 °C temperature steps, but the values should increase from T1 to T5, otherwise

the entry will be rejected. Example: 0, 10, 30, 60 and 100 °C are valid values

for the T1....T5. The minimum span for the range (T5 - T1) is 25 °C.

Code 24-28 *L1xT1 - In these access codes the specific conductivity values can be entered for

*L5xT5

5 different concentrations of the process liquid; each one in one specific access

code (24 to 28). The table below shows a matrix entering example for 1 - 15%

NaOH solution for a temperature range from 0 - 100 °C.

Notes:

1. In chapter 10 a table is included to record your programmed values. It will make programming easy

for duplicate systems or in case of data loss.

2. Each matrix column has to increase in conductivity value.

3. Error code E4 occurs when two standard solutions have identical conductivity values at the same

temperature within the temperature range.

Table 5-2. Example of user adjustable matrix

Matrix

Example Example Example Example Example

Code 23

Temperature

T1...T5

0 °C

25 °C

50 °C

75 °C

100 °C

Code 24

Solution 1 (1%)

L1

31 mS/cm

53 mS/cm

76 mS/cm

98 mS/cm

119 mS/cm

Code 25

Solution 2 (3%)

L2

86 mS/cm

145 mS/cm

207 mS/cm

264 mS/cm

318 mS/cm

Code 26

Solution 3 (6%)

L3

146 mS/cm

256 mS/cm

368 mS/cm

473 mS/cm

575 mS/cm

Code 27

Solution 4 (10%) L4

195 mS/cm

359 mS/cm

528 mS/cm

692 mS/cm

847 mS/cm

Code 28

Solution 5 (15%) L5

215 mS/cm

412 mS/cm

647 mS/cm

897 mS/cm

1134 mS/cm