LaMotte MULTI-RANGE CONDUCTIVITY METER DA-1 1929 User Manual

NOTES ON THE USE OF THE
CONDUCTIVITY PROBE
The sensing elements of the conductivity probe consist of two carbon
elements rigidly supported in a rugged plastic material.
These elements have a very precise parallel spacing which determines the
probe cell constant. To keep this spacing and to assure accurate results, it is
essential that the probe is properly maintained and kept clean.
1.

When conductivity measurements are made, the probe must be
immersed in at least ½" of solution. The probe may be completely
immersed within the sample without adversely affecting the results.

2.

There is a tendency for the conductivity probe to entrap air bubbles
which may result in erroneous readings. After the probe is immersed
in the test solution, tap or “jiggle” the probe until air bubbles are
removed.

3.

The conductivity probe must be kept from contacting the bottom or
sides of the container which holds the sample. Contact with surfaces
other than the solution might result in inaccurate readings since the
current flow may be altered between the probe elements.

4.

After the completion of the conductivity measurement, rinse inside
and outside of probe thoroughly with water, preferably distilled water.
Allow probe to drain completely before storing. The probe may be
stored dry indefinitely without any damage.

GENERAL OPERATING PROCEDURE
1.

Plug probe into BNC receptacle (top right corner of panel).

2.

With control knob in the “OFF” position, meter pointer must
balance at zero. To adjust the zero position, use meter-zero adjusting
screw (“X” slot screw on front of meter face). The mirror-faced scale
insures accurate readings by eliminating errors due to parallax
problems which would otherwise occur when the indicating needle
and the scale are not properly aligned by the reader’s eye.

3.

Switch the control knob to the “BAT. CK” position. Meter should
indicate greater than 80 micromhos/cm. If not, replace battery.
(See instructions for battery replacement, page 8.)

4.

Set the “TEMP” knob at 25°C, the Range Selector at “X100,” and
switch the control knob to the “CAL” position. The meter should
indicate exactly 100 micromhos/cm. If not, carefully adjust by using
the “STD” knob.

4

Con duc tiv ity

Sa lin ity

0°C

5°C

10°C

15°C

20°C

25°C

30°C

0

00

23,600

27,300

31,100

35,100

39,200

43,500

47,800

28

24,400

28,100

32,100

36,200

40,400

44,800

49,400

29

25,200

29,000

33,100

37,300

41,700

46,200

50,900

30

26,000

30,000

34,100

38,500

43,000

47,600

52,400

31

26,800

30,900

35,100

39,600

44,200

49,000

53,900

32

27,500

31,700

36,100

40,700

45,400

50,300

55,400

33

28,300

32,600

37,100

41,800

46,700

51,700

56,800

34

29,100

33,500

38,100

42,900

47,900

53,000

58,300

35

29,700

34,200

39,000

44,000

49,100

54,400

59,800

36

30,500

35,100

40,000

45,100

50,300

55,700

61,300

37

31,200

36,000

41,000

46,200

51,500

57,100

62,800

38

32,000

36,800

41,900

47,200

52,700

58,400

64,200

39

32,700

37,700

42,900

48,300

53,900

59,700

65,700

40

Data derived from the equation of P.K. Weyl, Limnology and Oceanography; 9,75 (1964).

CALIBRATION
Although each conductivity meter is precalibrated before it leaves the
manufacturer, it may become necessary to check the calibration to
determine if the instrument is responding to the specifications, especially if
the conductivity probe is different from the original one supplied with the
unit. This procedure should only be attempted by qualified personnel.
Please read the instructions thoroughly before starting.
Two accurately-prepared standard conductivity solutions are required for
the calibration procedure*. These solutions may be prepared with reagent
grade potassium chloride (KCl) in the following manner:
Solution #1:

0.05M KCl: In a 1.0 liter volumetric flask, dissolve 3.725g

anhydrous KCl in deionized/distilled water and dilute to 1.0 liter mark. At
25°C this solution has a conductivity of 6,668 micromhos/cm.
Solution #2:

0.5M KCl: In a 1.0 liter volumetric flask dissolve 37.25g

anhydrous KCl in deionized-distilled water and dilute to 1.0 liter mark. At
25°C this solution has a conductivity of 58,640 micromhos/cm.

9