LumaSense Technologies 3434i SF6 Leak Detector User Manual

Chapter 9

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BE6028-14

3434i SF6 Leak Detector

LumaSense Technologies A/S

Page 110 of 191

Monitor’s Background Memory to prevent it from being overwritten

(and therefore lost) by measurement data stored during the next

monitoring task. The same amount of data can be stored in both the

Background Memory and the Display Memory.

Structure of the Background Memory:

The data from a maximum of 10 monitoring tasks can be stored in

the Background Memory provided the total amount of data from the

10 tasks does not exceed the total capacity of the Background

Memory. Each monitoring task stored in the Background Memory is

given a “location number” (from no. 1 to no. 10). The size of each

location is flexible and is equal to the space required to store all the

data collected during a monitoring task. Each monitoring task stored

will occupy at least 2% of the total Memory capacity.

If data from a single monitoring task totally occupies the Display

Memory, then this data can be stored in Background Memory

provided that no data is already stored there. The data will occupy

only one location of Background Memory and fill all available storage

space. Therefore, it will not be possible to store any data from any

new monitoring task in Background Memory unless the data already

stored there is first deleted (see

section 9.3.3

).

To illustrate the variable size of each location let us suppose that the

following monitoring tasks are performed:

Task No. 1:

The data collected in Display Memory occupies 20%

of the total capacity of the Display Memory. The data

can be stored in Background Memory provided that

the data already stored there occupies less than

80% of the total capacity of the Background

Memory. However, let us suppose that the

Background Memory is empty and that we STORE

the data from this monitoring task in location 1 of

Background Memory. This means that Background

Memory is now 20% full (see

Fig.9.5

).

Task No. 2:

The collected data occupies 30% of the total capacity

of the Display Memory. Let us suppose that we

STORE the data in location 2 of Background

Memory. This means that Background Memory is

now 50% full (see

Fig.9.5

).

Task No. 3:

The data occupies 40% of the total capacity of the

Display Memory. Let us suppose that we STORE the

data from this task in location 3 of Background

Memory. Background Memory is now 90% full (see

Fig.9.5

).