Figure 8-1, 0 troubleshooting -1 8-1, Overview -1 – Emerson OXYMITTER 4000 User Manual

Instruction Manual

IB-106-340 Rev. 3.0

December 2003

Rosemount Analytical Inc. A Division of Emerson Process Management

Troubleshooting 8-1

Oxymitter 4000

SECTION 8

TROUBLESHOOTING

8-1 OVERVIEW

While the Oxymitter 4000 electronics provides a
significant number of diagnostic alarms to assist
in troubleshooting potential problems, it’s good
to place these alarms in perspective with re-
spect to the instrument’s operating principles:

a. When the Zirconium Oxide sensing cell is

heated to its setpoint [1357°F (736°C)], the
cell will generate a voltage that represents the
difference between the process O

2

% and the

reference O

2

% inside the probe (20.95% O

2

ambient air).

b. Test points are provided to read the raw milli-

volt value generated by the thermocouple that
controls both the cell temperature and the raw
cell signal.

c. The cell temperature at test points 3 and 4

should always be stable at approximately
29 to 30 millivolts, which represents the
736°C setpoint temperature.

d. When flowing calibration gasses, the raw cell

millivolt value at test points 1 and 2 should
represent the levels on the chart in Figure
8-1. Note that the raw cell millivolt value in-
creases logarithmically as the O

2

concentra-

tion decreases.

37260043

100

10

1

0.01

0.1

0

0

50

100

150

200

Concentration O (%)

2

EMF (mV)

O Sensor Performance at 736 C

2

O

O

2

%

100

20

15

10

9

8

7

6

5

4

EMF(mV)

-34

1.0

7.25

16.1

18.4

21.1

23.8

27.2

31.2

36.0

O

2

%

3

2

1

0.8

0.6

0.5

0.4

0.2

0.1

0.01

EMF(mV)

42.3

51.1

66.1

71.0

77.5

81.5

86.3

101.4

116.6

166.8

Figure 8-1. O

2

Sensor mV Reading vs. % O

2

at 736ºC (Reference Air, 20.9% O

2

)