1 introduction, 1 factory calibration, 2 field calibration – LumaSense Technologies INNOVA 1316A-3 User Manual

Chapter 4
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BE6024-12

1316A-3 Multi Gas Monitor

LumaSense Technologies A/S

Instruction Manual

Page 53 of 96

4.1 Introduction

4.1.1 Factory calibration

Multi Gas Monitor –INNOVA 1316A-3 component tolerances result in small,

but relevant differences in measurement of a given gas concentration. The

IR source, pressure transducers, thermistors, band pass filters, and

detectors are subject to these variances. During the Type 1316A-3

manufacturing process, each unit is individually characterized.

Characterization results in a set of unique response characteristics for each

IR gas channel. These individual response curves are stored in the NDIR

module flash memory, and enable the Multi Gas Monitor 1316A-3 to

measure gas concentration accurately.

4.1.2 Field Calibration

The Multi Gas Monitor –INNOVA 1316A-3 is designed to be zero and span

stable in normal operation.
Zero calibration establishes the baseline for gas concentration

measurement. These responses vary depending on existing temperature

conditions (ambient, sample gas, and IR filters/detectors).
Span calibration compensates for the normal component drift that slowly

occurs over the life of the instrument.

4.2 Zero Calibration and O

2

Span Calibration

LumaSense recommends that zero calibration be performed as follows:
Whenever Zero Request is shown in the Status window see

figure 4.1

Immediately prior to taking any important set of gas concentration data.

Immediately prior to any span calibration.

Zero calibration is a recommended step in recovering from several types of

malfunctions.