Myron L PS9TK User Manual

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method that ignores fill level, electrolysis, electrode characteristics, etc.,

and features a microprocessor to perform temperature compensation.

In simpler instruments, conductivity values are usually assigned an

average correction similar to that of KCl solutions for correction to

25°C. The correction to an equivalent KCl solution is a standard set

by chemists that standardizes the measurements and allows calibration

with precise KCl solutions. In the P

OOL

P

RO

, this correction can be set to

other solutions or tailored for special measurements or applications.

B. Tempco Variation

Most conductivity instruments use an approximation of the temperature

characteristics of solutions, perhaps even assuming a constant value.

The value for KCl is often quoted simply as 2%/°C. In fact, KCl tempco

varies with concentration and temperature in a non-linear fashion. Other

solutions have more variation still. The P

OOL

P

RO

uses corrections that

change with concentration and temperature instead of single average

values. See Chart 1.

C. An Example of 2 different solution selections and the

resulting compensation

How much error results from treating natural water as if it were KCl at

15°C?

A tap water solution should be compensated as 442 with a tempco of

1.68 %/°C, where the KCl value used would be 1.90 %/°C.

Suppose a measurement at 15°C/59°F is 900 microsiemens of true

uncompensated conductivity.