Myron L 9PTK with FCE Free Chlorine User Manual

1

i.

intrODUctiOn

Thank you for selecting the feature-packed Ultrameter III™, one of the

Myron L Company’s latest in an increasing line of instruments utilizing

advanced microprocessor-based circuitry and SMT manufacturing

processes. This circuitry makes the instrument extremely accurate,

reliable and very easy to use.
The Ultrameter III™ has been designed to include titration measurements

for Alkalinity, Hardness and LSI and an LSI Calculator for water balance

analysis. The Ultrameter III also features Myron L Company's exclusive

Free Chlorine Equivalent (FC

E

) function for making ORP-based free

chlorine measurements, as well as optional Bluetooth® wireless data

transfer. Other features include a clock with time and date, memory of up

to 100 locations with time and date stamp, the ability of the user to adjust

the timeout “Auto OFF”, and enhanced performance. See Features and

Specifications on pages 2-3.
The most exciting feature is data logging with the ability to wirelessly

download the memory or stored test data with its corresponding time,

date and unit name. This feature allows the user to create spreadsheets

and graphs with ease, and quickly and accurately manipulate data more

effectively. The optional bluDock™ and accompanying U2CI software is

compatible with most computers using either Microsoft Windows XP, 2000,

2007 or Vista™ or Macintosh OS9.2 or OSX™. The data may be imported

into a variety of spreadsheet formats like Microsoft Excel CSV™.

Please Note: Although the Myron L Company has performed extensive

testing, we cannot guarantee compatibility of all applications and formats.

We suggest testing your application and format for compatibility before

relying on it.
For your convenience, a brief set of instructions is provided on the bottom

side of your Ultrameter III. A small waterproof card with abbreviated

instructions is also included with the instrument as a quick reference.
Special note ... Conductivity, resistivity, and TDS require mathematical

correction to 25°C values (ref. Temperature Compensation, pg. 58). On

the left of the Ultrameter III’s liquid crystal display is shown an indicator of

the salt solution characteristic used to model temperature compensation

of conductivity and its TDS conversion. The indicator may be KCl,

NaCl, 442™ or User. Selection affects the temperature correction of

conductivity and the calculation of TDS from compensated conductivity

(ref. Conductivity Conversion to Total Dissolved Solids (TDS), pg. 61).

The selection can affect the reported conductivity of hot or cold solutions

and will change the reported TDS of a solution. Using KCl for conductivity,

NaCl for resistivity, and 442™ (Natural Water characteristic) for TDS is

consistent with present industry practice for standardization. This is how

your instrument, as shipped from the factory, is set to operate. For use in

seawater desalination for example, both the conductivity and TDS may

easily be changed to NaCl.