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*** Submitted for Approval ***
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CX4 Obstruction Detection Calibration |
Last Edited 05/01/2001 08:09:31 PM
Product: Synchron CX
Chapter: CX PRO
Section: Obstruction Detection
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Summary |
The calibration procedure for CX4 obstruction detection and correction (ODC) is described below. |
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Background |
The obstruction Detection and Correction (ODC) feature for CX PRO includes an automatic onboard calibration process. The calibration values are stored in nonvolatile memory and are checked against predetermined limits. |
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Procedure |
The CX4 obstruction detection calibration procedure should be performed after installing new obstruction detection hardware. In addition, when ODC hardware is installed or new tubing is installed, a minimum of 10 internal probe rinses should be performed on the sample probe before running the calibration procedure. The primes ensure the lines are degassed sufficiently to provide a good calibration.
Access the calibration screen as follows:
From the Main Screen, select F4 Special Functions.
From the next screen, select option 6. Maintenance.
From the next screen, select option 5. CX4 Obstruction Detection Calibration. |
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Step |
Action |
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The calibration procedure takes 4 measurements. Each are described below. |
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1 |
Probe measurement (no liquid) - Value 1 on the screen
This value represents the vacuum generated by the column of fluid in the sample probe. Gravity is the only force acting on the column of fluid and the gravitational pull causes a slight vacuum to be felt by the diaphragm in the obstruction assembly.
Home the CX system - Top 2 LEDs on motor driver 3 are ON.
Perform one internal probe prime
Send a command to PIC to go into calibration mode - First and third LEDs on motor driver 3 are ON.
Send a command to PIC to take the first measurement
Read PIC status byte and data byte |
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2 |
DI water measurement - Value 2 on the screen
Move the sample wheel to slot 1 cup 1 position
Aspirate an air slug
Move the sample probe and level sense DI water
Send a command to PIC to take the second measurement
Aspirate 25 uL water
Read PIC status byte and data byte |
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3 |
Sample Obstruction measurement - Value 3 on the screen
This value is calculated from the DI water measurement. It is ~15% of the DI water measurement value (value 2)
This value represents a ~0.5 uL clot. |
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4 |
Blowout measurement - Value 4 on the screen
When fluid is pushed through the probe, the diaphragm is subjected to the pressure required to push fluid out of the probe. This value will be used to determine if the probe is obstructed.
Go to wash station and inject what was aspirated in previous steps.
Aspirate DI water
Send a command to PIC to take the fourth measurement
Dispense the DI water
Read PIC status byte and data byte |
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5 |
Obstruction Detection Calibration Status Displayed on Screen
Display calibration values on the screen.
If all Pass, ask operator if want to save values (Done with Obstruction detection calibration below).
If Fail, notify operator of failure and provide option to exit calibration procedure (Abort Sequence below). |
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6 |
Done with Obstruction detection calibration
Send a command to PIC to write the calibration values to EEPROM
If PIC encounters an error in writing EEPROM, a pop-up message appears.
Read PIC status byte to confirm calibration was saved
PIC automatically performs a local software reset - Top 2 LEDs on motor driver 3 are ON. |
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7 |
Abort Sequence
If operator aborts calibration, CA Abort command is sent to PIC
PIC will perform local software reset and reload previous calibration values.
Home the CX system |
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Status Byte |
The status byte of the PIC is read several times during the calibration. Meaning of the status byte for calibration are below, however, these values are not viewable (event with cxlogger).
04 hex = No errors, calibration data is good
14 hex = No errors, calibration data is bad
x8 hex = Error occurred, stop calibration. High nibble (x) gives specific error code. |
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Typical Values/Limits |
The limits for each measurement are provided below. The middle value represents typical values for in-house instruments. All values are in hexadecimal (hex).
Probe Measurement (value 1): 6A<76<82 hex
DI Water Measurement (value 2): 59<65<71 hex
Sample Obstruction Measurement (value 3): 4A<56<62 hex
Blowout Measurement (value 4): 8C<98<A4 hex |
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Troubleshooting |
The following troubleshooting tips should be useful if ODC calibration fails. |
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Symptom |
Troubleshooting Tips |
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Values 1, 2 and 3 all FAIL and value 4 PASSes. |
Check cable connection to motor driver 3 board. |
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Values 2 and 3 FAIL and values 1 and 4 PASS |
Value 2 is determined while aspirating sample. If it fails, value 3 will fail. This failure mode is most likely associated with the fluid level in the cup. Check the following:
Does the cup contain fluid? Either cup was empty or insufficient fluid was in cup for procedure. Put appropriate fluid in cup and repeat procedure.
Does position 1 of the sector contain a cup? This procedure does not flag level sense errors (insufficient fluid or no fluid). Put container with appropriate fluid in position 1 of sector and repeat procedure. |
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Value 1 PASSes and Values 2, 3 and 4 all FAIL |
Value 2 is determined while aspirating sample. If it fails, value 3 will fail. Value 4 is determined while pushing the fluid out of the probe. The limits are set with the assumption the calibration is being performed with an aqueous solution. This failure mode is most likely associated with the fluid in the cup. Check the following:
Is the fluid in the cup aqueous (DI water, saline, aqueous calibrator, etc)? If not, put appropriate fluid in cup and repeat procedure. |
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Vales 1, 2, 3 and 4 all FAIL |
The most likely scenario for all values failing is a clogged probe or a ruptured membrane on the transducer.
The main difference between a clogged probe and a blown sensor is the magnitude of values 1and 2.
If the sensor is ruptured, all the values will be low. For one in-house system which had a ruptured CX4 ODC assembly, value 1 was 00, value 2 was 01, value 3 was F1 and value 4 was 12.
For one in-house system which had a clogged CX4 sample probe, value 1 was E0, value 2 was 07, value 3 was F8 and value 4 was 12. |
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