6 the o2 and no measurement – LumaSense Technologies INNOVA 1316A-1 User Manual

Chapter 1
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BE6020-14

1316A-1 Multi Gas Monitor

LumaSense Technologies A/S

Instruction Manual

Page 16 of 98

During a Zero/O

2

Span calibration, sample delivery pressure is

compared to ambient pressure (see below). If the difference is too

great, the Out Flow Fault status bit is set true and the pump is

switched Off.

1.4.6 The O

2

and NO Measurement

O

2

and NO gas concentration are measured using electrochemical

(fuel cell) sensors. A fuel cell sensor provides an electrical response

that is proportional to the concentration of the sample gas.
The NDIR Module sample-cell exhaust is directed to UA1372 manifold

for O

2

or O

2

/NO

measurement. Sample gas is delivered to the O

2

and

NO sensors through this manifold. The O

2

sensor provides a linear

output of approximately 9 to 13 milli-volts that is proportional to the

Oxygen concentration in the sample. The NO sensor provides a linear

output of approximately 50 nano-amperes per ppm of nitric oxide

over the range of 0 to 5000 ppm in the gas sample. A 3-volt lithium

battery is included on the NO sensor to retain bias voltage when

source power is not applied.
Both O

2

and NO sensor outputs are sent to an ADC converter that

provides digital values representing gas concentration. Gas

concentration is determined by comparing sensor output at

calibration with the output of the sample measurement.

By calibrating the system with known concentrations of Hydrocarbon,

Carbon Dioxide, Carbon Monoxide, and for the UA1372 option

Oxygen and NO the absolute concentration values can be calculated.

In normal practice ambient air is used as the reference gas for the

Oxygen measurement as it contains a stable amount of Oxygen –

20.95 % referenced to dry gas condition.