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Logical tool training

1.

LO G - I C A L TO O L T R A I N I N G
REFERENCE : R06
ISA-205-007 CHECKLIST ['PM']
06 | May| 22
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2.

WIP : Draft Material
ISA Specific LOG-ICAL instructions
The Alinity-i Preventative Maintenance ISA (ISA-205-007) specifically states that as a pre-site preparation
step, instrument data should be reviewed using LOG-ICAL.
Additionally, it specifies which tools to use.
This deck is intended as a reference deck containing
a single ‘good’ & ‘bad’ example per tool.
The ‘bad’ example is not the only bad signal that
may occur, rather it is only one example of several.
Please consider that there may be other failure
modes per tool/instrument area.
It may be better to consider the deck as a reference
for ‘what a good signal is’ and consider any
deviation as potentially ‘bad’.
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3.

WIP : Draft Material
LOG-ICAL Data Review:
Each of the 9 steps of the Pre-Site Data Review will be shown in the following slides
Please refer to the specific deck per topic for additional information
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4.

WIP : Draft Material
Pre Site Visit CMS check : Considerations
i.
Are there any open Mandatory or FA-Mandatory TSB tickets*?
ii.
Are there any open PHN tickets without any activity on them?
iii.
Are there any open tickets that are (currently) unresolved?
iv.
Is there any other ticket that you should be aware of before visiting the site?
v.
Are there any ‘Aging Tickets’ that can be worked on during the PM visit?
(Complaint?, pRE?)
Additional:
Any open Service Demand ticket with no activity for more than seven days, should be reviewed and action taken on the PM visit
An AGING TICKET is an open Service Demand ticket that has been open for 30 days or more
*Ensure you arrange the relevant parts so that any Mandatory TSB(s) that can be installed during the same visit as the PM are done
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5.

WIP : Draft Material
CMS & PHN Tickets:
Any open or recent PHN tickets suggests an issue with the instrument – if it has not been resolved
then consider the open ticket(s) will still require work on the PM visit.
Step
Pre-Site Review
PHN Equivalent?
Specific PHN tickets
1
Error Messages
No
Not Applicable
2
LLS Noise
No
Not Applicable
3
Dark Counts
Yes
Optics Dark Counts
4
Dispersion Motor
Yes
Reagent Supply Center Dispersion
5
Syringes
Yes
Pipettor Syringe Backlash
6
iARM
No
Not Applicable
7
Vortexer
Yes
ITV PWM
8
Vacuum
Yes
Vacuum Pump, Vacuum Leak, Vacuum Sensor
Please consider that if there are any PHN tickets, or similar reactive call Experience coded tickets, that have been closed within 7 days of your review, that
may have suppressed creation of new PHN tickets. For further advice on this, please contact your Area Smart center (or Virtual Team member if in EMEA).
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6.

REVIEW DURATION?
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7.

WIP : Draft Material
How far back/What Duration should you review?
Unless there has been a Field Service Visit recently, then the maximum duration for LOG data that
should be reviewed for the pre-site review should be 14 days*.
Step
LOG-ICAL Tool
Found In
Tool Default
Data Rows
Min. Duration
to Review
Max. Duration
to Review
1
Error Messages
Alinity Common – Message History
30 Days
7 Days
14 Days
2
LLS Noise
Alinity I – Liquid Level Detection / Noise
60,000 Signals
3 Days
14 Days
3
Dark Counts
Alinity I – Results
12,000 Results
5 Days
14 Days
4
Dispersion Motor
Alinity Common – Motor
100,000 Moves
5 Days
14 Days
5
Syringes
Alinity Common – Pipettor Syringe Backlash
100,000 Moves
5 Days
14 Days
6
iARM
Alinity Common – iARM
100,000 Signals
3 Days
14 Days
7
Vortexer
Alinity Common – Vortexer
30,000 Moves
3 Days
14 Days
8
Vacuum
Alinity I – Vacuum Pressure
50,000 Signals
5 days
14 Days
*Note that some tools use a default of 30 days. Additionally, if you use AbbottLink Log Download you will be limited to 1 or 7 days (depending on the logs) as that is restricted by the ODR
database structure.
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8.

WIP : Draft Material
Imported Dx Data Library Duration settings:
Xxxxx
Xxxxxx
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9.

1. ERROR MESSAGES
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10.

WIP : Draft Material
Message Codes & Categories:
Reference: KM – K62854830
(0001-0999) General message codes
Look for module status changes (Hard Stops)
(1000-1999) Assay-specific message codes
Look for failed calibration curves or Linearity AIMs
(2000-2999) Maintenance and diagnostic message codes
Look for failed maintenance AIMs
(3000-3999) Level sense and fluidics message codes
Look for Pressure Monitoring & LLS AIMs
(4000-4999) Optics and bar code reader message codes
Look for Read failure or Optics hardware AIMs
(5000-5999) Robotics and sensor message codes
Look for Motor error AIMs
(6000-6999) Support system message codes
Currently no AIMs listed in this category
(7000-7999) Temperature message codes
Look for temperature & Coolant level AIMs
(8000-8999) Computer hardware peripheral message codes
Look for LAS messages (if on a track)
(9000-9999) Software message codes
Look for SCM/Embedded Computer AIMs
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11.

WIP : Draft Material
“Error” type AIM codes
Reference: KM – K62854830
This is a list of AIM codes that are associated with error (as per the subsystem review in the ISA)
Please note that some AIM codes may be added or removed with changes in Software version
#
Sub-System Errors
Associated AIM Codes
2
LLS (& PM) related errors
3034-3044, 3424
3
Dark counts & Optics related errors 1201, 1401 - 1402, 4011-4019, 4023, 4401 - 5506
4
Dispersion Motor errors
5008, 5013, 5018, 5221, 5750
5
Syringe related errors
0148, 3424, 3613, 3640, 5668, 5221
6
iARM (Conductivity) errors
3611, 3645, 3681
7
Vortexer errors
5218, 5306 - 5311
8
Vacuum errors
3302 - 3310, 3316, 3317, 3319, 3655
NOTE: This is not an inclusive list, and there are plenty of other ‘error’ type AIM codes. Please review all AIM codes as YOU deem applicable.
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12.

WIP : Draft Material
Use the tools available!
Reference: KM – K62854830
The Mean/day between “X” & “Y” tool is very useful for looking for changes of AIMs after a specific day
Additionally, the ‘Forecast’ line can be extremely useful, especially when cycling through all AIMs
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13.

EXAMPLE OF A GOOD MODULE
Error vs. Non-Error AIM codes
WIP : Draft Material
Reference: KM – K62854830
Use non-error AIMs (such as module status change 0708 or logon 0607 AIMs) as a baseline for activity
Look for ‘error type’ AIMs (as per previous slide)
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14.

EXAMPLE OF A BAD MODULE
Use of “Forecast”
WIP : Draft Material
Reference: KM – K62854830
The easiest way to check AIM codes is to click/enable ‘Forecast’ then systematically work through each
AIM as listed on the left hand side (“AIM Selection”) panel by using your down cursor key.
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15.

WIP : Draft Material
Error Messages – Additional Consideration:
Consider using the “Hard Stop (i) Instrument State (ci)” Tool [from the ‘Common’ menu]
This allows looking at any Hard Stop and potentially which Error(s) occurred at the same time
Compare the same date/time of the Hard Stops to the Message History review.
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16.

2. LLS NOISE
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17.

EXAMPLE OF A GOOD MODULE
Watch out for the axis scale!
WIP : Draft Material
Reference: KM – K32533200
The Y-Axis scales automatically, so may look like there is a larger amount of variance if the Y-Axis is
reduced. You can manually set the Y-Axis scale using the “Scale” option (middle of top tool ribbon)
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18.

EXAMPLE OF A GOOD MODULE
WIP : Draft Material
Track Module considerations:
Reference: KM – K32533200
NOTE: You may see a double population of Noise variation/higher values if the analyser is on a track
(as the LAS aspiration position is on the spur outside of the analyser, and subject to greater ‘noise’)
Typically, with Track connected analysers the Inner/Outer positioners have lower a lower value & lower variance than the LAS position.
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19.

EXAMPLE OF A BAD MODULE
WIP : Draft Material
Reference: KM – K32533200
Raised LLD may be due to pipettor alignment, grounding wire connections, condensation not draining
from Reagent Carousel, Probe or other pipetting related hardware issues. Raised LLD Noise may
cause Level Sense or aspiration errors. Additionally consider grounding or motor noise too.
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20.

3. DARK COUNT
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21.

EXAMPLE OF A GOOD MODULE
Reference: KM – K47563158
Low Dark Counts
WIP : Draft Material
Dark Counts (DC) are a measure of
how much ‘signal’ is present when
there is no reaction occurring.
Dark Counts are also called
‘Background’ reads.
The lower the DC the better
A good DC is <200 (better is <100)
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Same Module
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22.

EXAMPLE OF A BAD MODULE
Reference: KM – K47563158
Raised Dark Counts
Dark Counts >500 cause AIM 1401
AIM 1401 is an exception error
High DC may be due leaks
WIP : Draft Material
(i.e. at the optics manifold)
High DC may also be due to high
Same Module
ambient light (especially >1pm)
Any average DC >125 are not good
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23.

4. DISPERSION MOTOR
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24.

EXAMPLE OF A GOOD MODULE
Reagent Carousel Dispersion Motor:
WIP : Draft Material
Reference: KM – K14328529
PHN = Variance >0.3
Review “Low Pass RMS” only. Typical normal values are 2.0 – 3.2, and increase with friction
A variance of 0.3 is the equivalent of a SD of 0.5477 (square root of 0.3 = 0.5477).
Note: Standard deviation is the square root of the variance. Variance & cv% are not the exact same thing - However, to simplify this, look at cv% of >0.3 and/or SD >0.5477
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25.

EXAMPLE OF A BAD MODULE
Dispersion Motor & Daily Maintenance
WIP : Draft Material
Reference: KM – K14328529
PHN = Variance >0.3
Consider checking Maintenance and Diagnostics tool (Common) – if Daily Maintenance (MD2500) is
not routinely performed daily, then it can affect the Dispersion Motor performance.
Note: The PHN is only looking at the ‘variance’, and not the average or maximum Low Pass RMS value. Any value >4.0 does not trigger the PHN unless the SD is also raised.
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26.

5. SYRINGES
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27.

EXAMPLE OF A GOOD MODULE
WIP : Draft Material
Syringe Backlash
Reference: KM – K00204855
PHN Threshold = 95
Good syringe backlash “Difference” values will be stable, with very little variation
New and/or Refurbished syringes have values usually between 40 - 70
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28.

EXAMPLE OF A BAD MODULE
WIP : Draft Material
Reference: KM – K00204855
Backlash trending upwards or with large variation:
Syringes with Backlash data trending upwards or with significant variation suggests it is leaking
Higher Backlash = aspiration imprecision = increased risk of aspiration errors with calibrators
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29.

6. iARM
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30.

EXAMPLE OF A GOOD MODULE
WIP : Draft Material
iARM – focus on the ‘Conductivity’ readings
Reference: KM – K72407257
A ‘heart-beat’ type pattern is usual, with some spikes up/down infrequently.
If all is working well, there should be no (or very few) Error messages seen in LOG-ICAL
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31.

EXAMPLE OF A BAD MODULE
The Y-Axis values are the easiest clue!
WIP : Draft Material
Reference: KM – K72407257
The Y-Axis auto-scales to the highest value within the data – anything >32400 means there’s a problem
AIM “5541” shown in iARM log correlates to AIM “3604” in Message History
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32.

EXAMPLE OF A BAD MODULE
WIP : Draft Material
Conductivity errors: iARM plot Message History
Check Message History for iARM specific AIMs if you are not happy with the iARM plot you see
Look specifically for frequency of AIMs 3603, 3604, 3647, 3680 & 3681
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33.

7. VORTEXERS
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34.

EXAMPLE OF A GOOD MODULE
Vortexers: What data to look at?
Only use “Requested speed = 1502”
WIP : Draft Material
Reference: KM – K27323431
PHN Threshold*:
- Old PCB = 725
- New PCB = 1425
Additionally, use the ‘Scan Data’ tab to review the Mean, SD & CV. Ideally all pwm cv% should be <3%
Variation in signal is expected, but should be relatively minor.
Some ‘cyclic’ patterns might be seen during the span of a day
Speed ‘Zero’ is useful for a general overview but shows very little variation to
pwm. This means that you might see ‘lower variation’ using speed zero
rather than speed 1502. Speed 1502 therefore is more useful for data review.
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35.

EXAMPLE OF A GOOD MODULE
WIP : Draft Material
Vortexers: look at Pulse Width Modulation
Use speed 1502 (the default speed selected is zero, so please change it to 1502).
Speed zero may be useful in some circumstances
*Old PCB Controller = ‘zero’ values in Time To Engage/Time to Disengage;
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Reference: KM – K27323431
PHN Threshold*:
- Old PCB = 725
- New PCB = 1425
New PCB Controller = Time to Engage/Time to Disengage has values other than ‘zero’.
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36.

EXAMPLE OF A BAD MODULE
Do not review all Req speeds!
Speed 1502 is used to move the ITV up/down before/after each cycle.
WIP : Draft Material
Reference: KM – K27323431
PHN Threshold*:
- Old PCB = 725
- New PCB = 1425
All other speeds (such as 1755,
2016, 2264, etc.) are used in assay
specific steps so the volume of fluid
in each RV is much more variable
(thus the pwm may also be more
varied due to fluid content).
Whilst reviewing speed 1502 is the correct
thing to do, sometimes, using speed zero is
also useful (as this example shows) as it
may show the changes in an easier format
*Old PCB Controller = ‘zero’ values in Time To Engage/Time to Disengage;
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New PCB Controller = Time to Engage/Time to Disengage has values other than ‘zero’.
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37.

8. VACUUM
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38.

WIP : Draft Material
Vacuum PHN & Function
Reference: KM – K30401385
Only review the ‘Adc’ & ‘Psig’ signal
Change the vacuum ‘State’ as needed
The ‘PHN’ signal option only appears if PHN is triggered
(otherwise the PHN option is not seen for plot or table)
Note that any individual data point that passes a PHN threshold will have the ‘Flagged’ icon by it, but this does not
necessarily mean it is sufficient to fully trigger the PHN (as some have minimum # of data points required to trigger)
PHN
Vacuum ‘State’
PHN Threshold
Vacuum Pump
Verify Vacuum
Minimum daily ADC > 2160
Vacuum Leak
Conclude Leak Test
Daily mean of Leak% > 7%
Vacuum Sensor
Vacuum Bled off
Daily mean ADC < 3549
Note: Vacuum waste accumulator PHN is based on AIM 3655 in Message History, not on vacuum values
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39.

EXAMPLE OF A GOOD MODULE
Normal ‘Pump function’ example
WIP : Draft Material
Reference: KM – K30401385
PHN Threshold:
Min daily ADC > 2160
Look at ‘Verify Vacuum’ state & ‘Disable Vacuum’ substate, with X-Axis changed to ‘Time’.
The bottom of each ‘cluster’ should be <2160. The clusters should all be similar in shape & size.
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40.

EXAMPLE OF A BAD MODULE
WIP : Draft Material
Reference: KM – K30401385
Vacuum Pump PHN
PHN Threshold:
If the ‘Vacuum Pump’ PHN has been triggered, you will see all the dots >2160
Min daily ADC > 2160
The PHN flags the lowest point per day as orange (if lowest point is >2160), hence the orange ‘line’
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41.

EXAMPLE OF A GOOD MODULE
Normal ‘Leak test’ example
WIP : Draft Material
Reference: KM – K30401385
PHN Threshold:
Daily mean Leak% > 7%
Change plot to “ADC Leak Test” & State to “Conclude Leak Test”
The plot is the ADC values and can be used for trend review, but the Leak% value in the table is the more
important value to review – any over 7% (or close to 7%) are suspect. Typical good values are <5%
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42.

EXAMPLE OF A BAD MODULE
WIP : Draft Material
Reference: KM – K30401385
Vacuum Leak PHN
PHN Threshold:
Daily mean Leak% > 7%
Look for “Leak Percentage %” values that are >7.0% (or any that are close to it)
Note: the “Vacuum Leak PHM” column is only visible if the data triggers the PHN threshold (‘Flagged’)
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43.

EXAMPLE OF A GOOD MODULE
Normal ‘Vacuum sensor’ example
WIP : Draft Material
Reference: KM – K30401385
PHN Threshold:
Daily mean ADC < 3549
Use the ‘Vacuum Bled Off’ state to view the ADC plot. Change X-Axis from ‘Sequence’ to ‘Time’.
Use the Statistics box to look at daily mean value (highlighted in yellow in the below screengrab)
Typically, normal
values are 3600
or higher
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44.

EXAMPLE OF A BAD MODULE
WIP : Draft Material
Reference: KM – K30401385
Vacuum sensor PHN
PHN Threshold:
Daily mean ADC < 3549
When the “Vacuum Bled Off” state has a daily average ADC of <3549 it triggers the PHN
Any data points below the threshold have orange dots highlighting them
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45.

WIP : Draft Material
Vacuum & PSIg
Reference: KM – K30401385
No PHN for PSI values
Use the ‘Verify Vacuum’ state & ‘Disable vacuum’ sub-state to view the Psig plot
All points should be between -6.5 and -9.5 (ideally close to -8.0)
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PSIg thresholds from
GSTO Vital Signs PBI

46.

EXAMPLE OF A GOOD MODULE
WIP : Draft Material
Reference: KM – K30401385
Normal ‘PSIg’ example
No PHN for PSI values
Use the ‘Verify Vacuum’ state & ‘Disable vacuum’ sub-state to view the Psig plot
All points should be between -6.5 and -9.5 (ideally closer to -8.0)
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47.

EXAMPLE OF A BAD MODULE
WIP : Draft Material
Reference: KM – K30401385
PSIg too high
No PHN for PSI values
Modules with PSIG values out of range (values between zero & -6.5) typically also flag for PHNs as well
Usually the ‘Vacuum Pump PHN’ is also seen when there are multiple values are between -6.5 and zero
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48.

9. OTHER CONSIDERATIONS
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49.

WIP : Draft Material
PM Events : SHAPE variance
Consider reviewing SHAPE score (by pipettor level).
Bad modules typically have a mean greater than 40 & SD more than 50
(CV% should not be reviewed as an indicator in this situation)
Reference: KM – K04710015
New style Vacuum pumps or vacuum pumps with vibration may increase shape score, so consider checking vacuum system if the shape score mean & cv is raised
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50.

WIP : Draft Material
PM Events : Front End (FE) Trending
Reference: KM – K04710015
Consider reviewing Front End Pressure (FE) by pipettor level.
The plot should be stable, usually between 23,500 & 25,000 with a typical CV of <0.2%
Modules with CV >0.30% may have issues with their Pressure Monitoring and/or fluidics systems
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51.

WIP : Draft Material
Maintenance : Failed & Outstanding
Reference: No KM available
Maintenance must be performed as per Operations Manual – failure to do so impairs function
Failure to perform or successfully complete Daily Maintenance can affect multiple subassemblies*
*Example: Dispersion Carousel motor is re-homed during DM. Failure to complete DM can result in RGT load/unload errors.
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52.

WIP : Draft Material
Hard Stops
Reference: KM – K22032714
Reference: KM – K05618440
• “Instrument State” can be used to look for Hard Stop events, then for review of AIMs at the same time
The specific date of each Hard Stop can then be
reviewed by using the Message History tool to
look for other errors at the same time, which may
be associated with the Hard Stop (or the cause)
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53.

WIP : Draft Material
Wash Aspiration Monitoring (WAM)
Reference: No KM available
WAM signals should be similar/steady per dispense volume (compare WZ1 & WZ2; both should be the same)
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54.

WIP : Draft Material
GSR…looking for PHNs
Consider using the GSR “APOLLO PHM” report to check for PHN flags against your module…
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55.

WIP : Draft Material
Additional Consideration – ALINITY IHR
The Alinity i Instrument Health Report (GSR) looks at recent data* and can generate a report for use
by those that have not completed LOG-ICAL training (or have sufficient LOG-ICAL experience)
*Varies per report, typically
the most recent month
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56.

QUESTIONS ?
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57.

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58.

WIP : Draft Material
Embedded Help with KM:
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59.

WIP : Draft Material
REFERENCE:
ISA-205-007:
Alinity i Preventative Maintenance Procedure
ISA-205-016:
ISA-TSB - Alinity i Predictive Health Notification (PHN) Summary (sharepoint.com)
NOTE: PHN thresholds are as per the appropriate Design Documents, as referenced in ISA-205-016
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