Teledyne 3010PA - Split architecture percent oxygen analyzer User Manual

2-6: Part II

2 Operational Theory

Model 3010

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2.2.6.3 Class B-1 Cell

The class B-1 cell is for use in applications where it is exposed to less

than 0.1 % of carbon dioxide, and where fast response is important.

Nominal output in air is 0.50 mA, and 90 % response time is 7 s.

Expected life in air is 8 months.

2.2.6.4 Class B-3 Cell

The class B-3 cell is for use in applications where a slightly longer

response time is acceptable in order to have a longer cell life.

Nominal output in air is 0.30 mA, and 90 % response time is 13 s.

Expected life in air is 12 months.

2.2.6.5 Class C-3 Cell

The class B-1 cell is for use in applications where it is exposed to less

than 0.1 % of carbon dioxide, and where a longer response time is accept-
able in order to have a longer cell life.

Nominal output in air is 0.20 mA, and 90 % response time is 30 s.

Expected life in air is 18 months.

2.2.6.6 Hydrogen and/or Helium Service

If the sample gas contains 10 % or more hydrogen and/or helium, only

“clamp” cells are used. These Micro-Fuel cells are identified by the suffix -C
added to the cell class number.

NOTE: Teledyne offers

2.3

Sample System

The sample system delivers gases to the Micro-Fuel Cell sensor from

the Analysis Unit Gas Control Panel inlets. Depending on the mode of
operation either sample or calibration gas is delivered.

Figure 2-4 is a typical flow diagram for the sampling system. The flame

arrestors and valves (shaded) are optional.

When the –C option is ordered, the valves are installed inside the 3010

enclosure and are regulated by the remote Control Unit electronics.