Fluke Biomedical VT Plus HF User Manual

Appendices

Gas Analyzer Tutorial

A

A-5

In the manual zero mode, if the user presses the

ZERO/7

key when the Analyzer is at the

Flow

screen, a message appears, indicating that the flow must be removed from the

currently selected flow port. The user must remove the flow so that a correct zero reading

can occur.
In the auto zero mode, the Analyzer uses the valves that switch between the high- and

low-flow ports to obtain a zero reading. It is assumed that there is no flow in the

unselected port. The purpose of this is to provide a means to zero the flow without having

to disconnect from the ventilator circuit (or other flow source being measured).

Note

When auto zeroing is selected, it is important that there is no flow on the

unselected flow port. For example, if the high flow range is selected, there

should not be any flow in the low flow port if auto zeroing is selected.

When auto zero is selected, the user may still push the

ZERO/7

key to initiate a flow

zero. The valves still automatically switch to obtain the zero reading. Therefore, it is not

necessary for the user to disconnect the flow to zero. No message appears indicating that

the flow source should be removed.
With the auto zero setting enabled, the flow automatically zeros every 20 minutes. If

more frequent zeroing is desired, manually zero the flow using the

ZERO/7

key. Because

some data is lost during a zero, ventilator parameter data for breaths affected by an auto

zero are discarded.
Airway pressure is also zeroed whenever flow is zeroed. Airway pressure can also be

independently zeroed from the airway pressure screen.

Breath Detection

To monitor ventilator parameters, the Analyzer must first determine when a breath

occurred and delineate the various phases of the breath. For example, the breath detection

algorithm determines the beginning and ending of the integration periods for calculating

tidal volumes.
The breath detection algorithm is implemented as a state machine. The flow waveform is

the input to the state machine. The state changes are based on flow waveform crossing of

predefined thresholds. A threshold is applied to both positive (inspiratory) and negative

(expiratory) flows. The breath detection threshold can be set to a high flow rate to reject

noise near zero flow.

Bi-directional, Inspiratory, Expiratory Breath Detect Modes

Figure A-1 shows the circuit connection for setting up the Analyzer in a bi-directional

mode. The gas flows in both directions through the Analyzer. This is the preferred setup

for using the Analyzer with a ventilator.