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J39931EN
Specification for Automation Interface VITROS 4600 Chemistry System
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Export authorized under general license GTDA (General Technical Data Available)
IMPORTANTThe information contained herein is based on the experience and knowledge relating to the subject matter gained by Ortho-Clinical Diagnostics, Inc. prior to publication.
No patent license is granted by the information.
Ortho-Clinical Diagnostics, Inc. reserves the right to change this information without notice, and makes no warranty, express or implied, with respect to the information. The company shall not be lia-ble for any loss or damage, including consequential or special damages resulting from the use of this information, even if loss or damage is caused by its negligence or other fault.
VITROS is a registered trademark of Ortho-Clinical Diagnostics, Inc.
Ortho-Clinical Diagnostics, Inc., 2011. All rights reserved.
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Specification for Automation Interface
VITROS 4600 Chemistry System
Pub. No.: J39931ENIssued: 2011-01-10
Section 1. Introduction ........................................................................................................ 1Overview .........................................................................................................................................1References and Definitions ............................................................................................................1Document Structure ........................................................................................................................3Revision History ..............................................................................................................................3Assumptions and Dependencies ....................................................................................................3
Section 2. Software Interfaces ............................................................................................ 5Operational Overview .....................................................................................................................5Specifications .................................................................................................................................6
Lab Automation Protocol ..........................................................................................................6Datalink/Session Layer ............................................................................................................7Presentation Layer .................................................................................................................10
Query Analyzer Status ..................................................................................................................23Sample Metering Handshaking ....................................................................................................23Reinitialize Metering .....................................................................................................................26Reinitialize Communications ........................................................................................................28Query Analyzer Inventory/Resources ...........................................................................................28Illegal Commands .........................................................................................................................29Internationalization and Language Support ..................................................................................30Timing Requirements ...................................................................................................................30Lab Automation Communication Scenarios .................................................................................31
Interface Initialization Sequence ............................................................................................31Run Two Samples ..................................................................................................................32Remote Sample Startup Interrupted by Local Sample ...........................................................33Non Fatal Error Condition (Insufficient Inventory) ..................................................................34Non Fatal Error Condition (Unknown Sample ID) ..................................................................35Non Fatal Error Condition (Sample In Position Not Received in Time) ..................................36Fatal Error Condition ..............................................................................................................37Sample Routed Notification ....................................................................................................38Query Analyzer Inventory .......................................................................................................39
Section 3. Hardware Interfaces ......................................................................................... 40Electrical Interfaces ......................................................................................................................40Analyzer Dimensions ....................................................................................................................41Site Specifications ........................................................................................................................42Service Access .............................................................................................................................42
Analyzer Heat Rejection and Air Intake Zones ......................................................................43Positional Requirements ...............................................................................................................43Analyzer to Track Positioning/Floor Mounts or Anchors ...............................................................44
Floor Mounts/Anchors ............................................................................................................45Sample Positioning and Adjustments ...........................................................................................46
Sample Center Device Adjustments: Positioning Responsibilities .........................................46VITROS 4600 Metering Proboscis Alignment .....................................................................47Point Of Reference (POR) .....................................................................................................48
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ii Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Sample Tube Height: Vertical Dimension for POR ................................................................51Analyzer Dimensions with AT Configuration ................................................................................52Regulations and Safety Standards ...............................................................................................53
Section 4. Sample Handling .............................................................................................. 54Supported Containers ...................................................................................................................54Containers that are not Supported ...............................................................................................54Sample Quality Recommendations ..............................................................................................54Environmental Issues ...................................................................................................................54
Section 5. Guidelines for Laboratory Automation System Protocol Tests .................. 55Introduction ...................................................................................................................................55
Purpose ..................................................................................................................................55Audience ................................................................................................................................55Approach ................................................................................................................................55Material Resources ................................................................................................................55Skills Required .......................................................................................................................56
Protocol Tests ...............................................................................................................................56LAS Communication Initialization Test ...................................................................................56Analyzer Status Test ..............................................................................................................57Sampling Complete Test ........................................................................................................58Error Recovery Test ...............................................................................................................59Sample Routed/Host Query Test ...........................................................................................61Request Inventory Test ..........................................................................................................61Request Resources Level Test ..............................................................................................62
Instrument-Based Testing ............................................................................................................62Normal Operations Sample Handling .....................................................................................62
Physical Interfaces .......................................................................................................................63Sample Positioning ................................................................................................................64
Section 6. LAS/LIS Architecture ....................................................................................... 65Methods to Download Test Orders ...............................................................................................65
Single Instrument Download ..................................................................................................65Broadcast Download ..............................................................................................................65Host Query .............................................................................................................................65
Interface Topology ........................................................................................................................65Case 1 ....................................................................................................................................65Case 2 ....................................................................................................................................66Case 3 ....................................................................................................................................67
Section 7. Safety and Precautions ................................................................................... 69Patient Safety Considerations ......................................................................................................69Operator Considerations ..............................................................................................................71Environmental Considerations ......................................................................................................72
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Pub. No.: J39931EN Specification for Automation Interface 1Issued: 2011-01-10 VITROS 4600 Chemistry System
Overview
Laboratory Automation Specification
Section 1. Introduction
OverviewThe Automation Interface Guide contains interface specifications to assist Lab Automation manufacturers in adapting Lab Automation systems to the Ortho Clinical Diagnostics VITROS 4600 Chemistry System (VITROS 4600 System). This document is intended for Lab Automation Vendors and Ortho Clinical Diagnostics personnel who create interfaces between an automated sample delivery system and the VITROS 4600 System.
Laboratory Automation System (LAS) refers to the subsystems that support the capability to control an automated track and coordinate sample movement to a processing station, for example, a system. The LAS includes the VITROS 4600 Chemistry System (VITROS 4600 System), the Lab Automation Computer (LAC), and the hardware that connects them.
This specification provides an explanation of interfaces between the Lab Automation Vendors and Ortho Clinical Diagnostics. Topics include:
Information to be transmitted between the Lab Automation System and the VITROS 4600 System
Format of information to be transmitted between the Lab Information System and the system
Physical relationships between the system and the sample container
Sample container sizes and aspiration depths
System footprints and space requirements
Operator and service access requirements to the system
Environmental specifications for the system
System sample throughput specifications
Electrical interconnects between a Lab Automation System and the system
Automation interface guidelines for accurate implementation of the Automation Interface Specification
Summary of considerations for Lab Automation System and Lab Information System architecture
Summary of Lab Automation Interface risk assessment
References and DefinitionsSite Specifications for the VITROS 5,1 FS Chemistry System and the VITROS 4600 Chemistry System, J39897.
Laboratory Information System (LIS) Guide for the VITROS 5600 Integrated System, the VITROS 3600 Immunodiagnostic System and the VITROS 4600 Chemistry System, J32799EN.
Unpacking and Installlation Instructions for VITROS 5,1 FS Chemistry System and VITROS 4600 Chemistry System: Intact System, J39894
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2 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
References and Definitions
Unpacking and Installation Instructinos for VITROS 5,1 FS Chemistry System and VITROS 4600 Chemistry System: Split System, J39895
Installation Instructions for the VITROS 5,1 FS Chemistry System and the VITROS 4600 Chemistry System: Automation (AT) Accessory, J39893
Installation Instructions for the VITROS 5,1 FS Chemistry System and VITROS 4600 Chemistry System: AT Seismic Anchorages, J39896
ISO 8859-1 8-bit single-byte coded graphic character sets -- Part 1: Latin alphabet No. 1
ACK (Acknowledgement Code)A signal passed between computers to signal a receipt of a message.
AnalyzerFor the purpose of this specification, the VITROS 4600 Chemistry System.
ASCII: American Standard Code for Information InterchangeA system that is used for character encoding.
ASTM: American Society for Testing and MaterialsIn the context of this document, the communication protocols defined by the E-1381 and E-1394 specifications for the communications between clinical laboratory instruments and lab computer systems.
Asynchronous LIS MessagesA feature that enables the system to send unsolicited status updates to the LIS.
CRC: Cyclical Redundancy CheckingAn error checking algorithm used to verify the integrity of an electronic message.
Extended ASCIIA set of codes that extends the basic ASCII set. The basic ASCII set uses 7 bits for each character, giving it a total of 128 unique symbols. The extended ASCII character set uses 8 bits, which gives it an additional 128 characters. Extended ASCII uses the ISO8859-1 implementation to support Western European languages. See ISO 8859-1 8-bit single-byte coded graphic character sets -- Part 1: Latin alphabet No. 1.
GUI: Graphical User InterfaceA computer-user interface based on graphics (icons and pictures and menus) instead of text.
HL7: Health Level SevenA standard message protocol for electronic data exchange in all health care environments including clinical laboratories with automation.
LAC: Lab Automation ComputerA computer used in the LAS to control the track and coordinate sample movement to a processing station.
LAS: Lab Automation SystemThe subsystems that support the capability to control an automated track and coordinate sample movement to a processing station, for example, an Analyzer.
POR: Point of ReferenceA point in space at which the sample tube is placed for external metering.
LIS: Lab Information SystemThe computer system responsible for data management, for example, sample results and patient history.
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Pub. No.: J39931EN Specification for Automation Interface 3Issued: 2011-01-10 VITROS 4600 Chemistry System
Document Structure
Sample ProboscisAspiration probe on the system.
Sample CarrierThe device that holds the sample container and interfaces with the transport track to facilitate movement from one location to another.
Sample ContainerThe tube that holds patient samples.
UTF-8Unicode Transformation Format-8 that is an octet (8-bit) lossless encoding of Unicode characters.
Document StructureThe Automation Interface Specification is organized into the following sections:
Section 1. Introduction on page 1Provides general information about the specification
Section 2. Software Interfaces on page 5Describes the software commands and responses exchanged between the system and the lab automation system during sample processing
Section 3. Hardware Interfaces on page 40Describes the physical interfaces between the lab automation system and VITROS 4600 Chemistry System
Section 4. Sample Handling on page 54Describes requirements for containers used in sample processing with lab automation systems
Section 5. Guidelines for Laboratory Automation System Protocol Tests on page 55Provides guidelines for automation system personnel to use in verifying the correct implementation of an automation interface
Section 6. LAS/LIS Architecture on page 65Discusses considerations applicable in lab automation interfaces in an LIS environment
Section 7. Safety and Precautions on page 69Explains considerations for minimizing risks
Revision History
Assumptions and Dependencies Manual (walk up) samples take priority over samples delivered by the automation
system.
Calibration with fluids delivered by the automation track is not supported. (Controls are not prevented from being delivered by the automation track.)
Date Page Revision Details
2011-01-10 N/A Initial release of the specification
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4 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Assumptions and Dependencies
Whole blood samples for use on the VITROS 4600 System require processing from cups not tubes. These samples should be processed on the VITROS 4600 System directly.
The system uses two types of interfaces. The LAS interfaces for sample coordination and the LIS interface for prsystemogram, results, etc.
The automation system handles movement of all samples not placed manually on the system.
The automation system stops, captures, positions, and steadies the sample for fluid aspiration.
All required information for processing a sample will be supplied to the system. The Lab Automation System for each sample will supply the two items listed below before it is placed in position for metering but after the SAMPLING COMPLETE message for the previous sample.
Sample ID
Container type (diameter)
Sample programming for an individual sample must be downloaded prior to its presentation to the system if host query is not enabled.
When using host query mode, the SAMPLE ROUTED message should be sent to the system as soon as the decision to route the sample to that system has been made by the automation system. This will maximize the time the system has to complete the host query.
The automation system ensures the integrity of the sample identification for the sample being aspirated.
If the LAS has not just received a status message or SAMPLE COMPLETE response, the LAS queries the system for its current status before sending a PREPARE TO RUN SAMPLE command.
The automation system must complete the following steps within the required time period after the SAMPLING COMPLETE message is sent by the system to guarantee maximum system throughput:
Send the Sample ID information within a PREPARE TO RUN SAMPLE message for the next sample within 100 milliseconds of SAMPLE COMPLETE.
Place the next sample into the aspiration position.
Send the SAMPLE IN POSITION message to the system (no more than 6.4 seconds after the PREPARE TO RUN SAMPLE command). The sample must be in position when this message is sent. Failure to meet this 6.3-second time window will result in the sample not being processed by the system.
The automation system must supply a setup mode used with the system's setup and adjustment mode. In this mode, empty tubes are used to adjust the system's metering system to the location where aspiration will be performed.
The VITROS 4600 System does not control devices mounted on the automation track.
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Pub. No.: J39931EN Specification for Automation Interface 5Issued: 2011-01-10 VITROS 4600 Chemistry System
Operational Overview
The automation system must comply with the site specifications in order for system doors and lids to open and for waste containers to be easily emptied. Refer to Site Specifications for the VITROS 5,1 FS Chemistry System and the VITROS 4600 Chemistry System, J39897.
This document does not contain the description of the Graphical User Interface (GUI) but only the functionality of the feature.
No GUI specifications are detailed in this document.
The system software is backward compatible with existing VITROS LAS communications.
Communication between the System and the LAC requires an RS-232 compatible serial communications port.
Section 2. Software InterfacesThis section contains the detailed specifications that define the software interface between the VITROS 4600 System and the LAC.
Operational OverviewQuery Analyzer Status1. The LAC sends a QUERY ANALYZER STATUS command to the system.
2. The system sends a ANALYZER STATUS response to the LAC.
Sample Metering Handshaking 3. The sample tube is loaded onto automation track.
4. The LIS downloads test order to the system.
5. The sample tube is carried to system.
6. The LAC sends a PREPARE TO RUN SAMPLE command to the system. The command contains a sample ID and the container type.
7. The system retrieves a sample program and builds a worklist for the sample.
8. The LAC sends a SAMPLE IN POSITION command to the system, handing over control to the system.
9. The system aspirates fluid from the sample tube.
10. The system sends a SAMPLE COMPLETE response to the LAC, releasing the sample back into the control of the LAC.
Reinitialize Metering11. The LAC sends a REINITIALIZE METERING command to the system.
12. The system reinitializes any reduced subsystems.
13. The LAC periodically queries the system status until an ANALYZER IS READY TO SAMPLE code is received.
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6 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Specifications
Reinitialize Communications14. The LAC sends a REINITIALIZE COMMUNICATIONS command to the system.
15. If an error occurs and it is recoverable, the system will respond by issuing the READY sequence.
16. The initialization sequence is repeated.
Query Analyzer Inventory/Resources17. The LAC sends a QUERY ANALYZER INVENTORY command to the system.
18. The system retrieves inventory information from the Inventory Manager.
19. The system sends a series of ANALYZER INVENTORY responses to the LAC until all the inventory data has been sent.
20. The LAC sends a QUERY ANALYZER RESOURCES command to the system.
21. The system retrieves resource information from the Inventory Manager.
22. The system sends a QUERY ANALYZER RESOURCES response to the LAC.
Note: Similar functionality is also available with the LIS interface.
Error HandlingThe Lab Automation System handles errors encountered during communication. These errors include physical communication errors, framing errors, and logical state transition errors.
Specifications
Lab Automation ProtocolThe functions involved in transferring data from the Lab Automation System (system) to the lab computer and the lab computer to the system are divided into these components:
Physical Layer - This is comprised of the actual hardware and software configuration used to communicate between the two systems.
Datalink Layer - This handles the framing and error detection for the sending and receiving of messages.
Session Layer - This handles to establishment of communication, sequence numbering, and error recovery in the sending and receiving of messages.
Presentation Layer - This specifies the content and format of the records to be implemented in this application.
Physical LayerThe system uses 1 start bit.
The system supports 1 or 2 stop bits.
The system supports EVEN, ODD, and NONE parity.
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Pub. No.: J39931EN Specification for Automation Interface 7Issued: 2011-01-10 VITROS 4600 Chemistry System
Specifications
The system supports the following baud rates:
9600
19200
38400
The system uses 8 data bits.
Datalink/Session Layer
Message FormatThe following special control characters are used:
STX = 0x02
ETX = 0x03
The following forms of message frames are supported:
Byte 1: STX
Byte 2: Message Length
Byte 3: Message Type
Byte 4: Sequence Number
Byte 5 to N-2: Message Body
Byte N-1: CRC
Byte N: ETX
Message lengths are the total number of bytes in the message excluding the STX and ETX.
The following message types are supported:
0x00 Data
0x01 ACK
0x02 NAK
Cyclical Redundancy ChecksThe algorithm for computing the Cyclical Redundancy Check (CRC) is the following C code fragment:
unsigned char crc;
crc = 0x84;
for (i = 0; i > 1) | (crc
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8 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Specifications
Note that this algorithm excludes the STX, ETX and CRC bytes.
Sequence NumbersThe use of sequence numbers in system communications is optional. The LAS selects the use or non-use of sequence numbers.
The system disables the use of sequence numbers if the LAS sets the sequence numbers to 0x00 in the ACK messages that it sends during the initialization sequence.
The system enables the use of sequence numbers if the LAS uses valid, increasing sequence numbers in the ACK messages that it sends during the initialization sequence.
Valid sequence numbers are 0 to 255. The number following 255 is 0.
The system maintains two sets of sequence numbers, one for messages originating from the LAS and another for messages originating from the system.
Interface Initialization SequenceCommunication with the system must be restarted whenever a communication link has been broken because the system was turned off or was reset or because an Interface Communication Failure occurred.
The system starts the initialization sequence after a power on or system reset as soon as the automation control task has initialized.
The system starts the initialization sequence to recover from an interface communication error after receiving a REINITIALIZE COMMUNICATIONS message from the LAS.
The interface initialization sequence begins when the system sends a READY message to the LAS consisting of an STX followed by an ETX.
The system waits up to 1 second for the LAS to respond with an ACK message. If the LAS does not respond, a second READY message is sent.
The initialization sequence is aborted if the LAS does not respond before a 1 second timeout for the second READY.
Note: The LAS responds to the READY message by sending ACK messages no more than 500ms apart.
The system waits up to 1 second for the LAS to respond with a second ACK message. If the LAS does not respond before 1 second, the initialization sequence is aborted.
When the system receives two ACK messages to determine if sequence numbers are used, the system responds to the LAS with its own ACK message. This contains the appropriate sequence number immediately followed by an ANALYZER STATUS message.
See Figure 1: Initialization Sequence.
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Pub. No.: J39931EN Specification for Automation Interface 9Issued: 2011-01-10 VITROS 4600 Chemistry System
Specifications
Figure 1: Initialization Sequence
AcknowledgementsAfter a message is sent, the sender stops transmitting until an acknowledgment is received.
The receiver sends an ACK message to the sender for every message received with a valid CRC and no communication errors.
The receiver sends a NAK message to the sender for every message received with an invalid CRC or a communication error occurred during transmission (example, parity error).
If sequence numbers are enabled, the receiver sets the sequence number of the ACK or NAK message to the sequence number of the message being acknowledged.
CRC checks are not performed on ACK and NAK messages.
Unsolicited ACK and NAK messages are ignored.
Lab Automation System
READY if no response in 1 second
ACK
ACK
ACK
Analyzer Status Message
ACK
Query Analyzer Status
ACK
Analyzer Status Message
ACK
READY
Sequence Number = A
Sequence Number = A+1
Sequence Number = A+1
Sequence Number = 0
Sequence Number = 0
Sequence Number = A+2
Sequence Number = A+2
Sequence Number = 1
Sequence Number = 1
Initialization Complete
Note: The Query Analyzer Status message is not part of the initialization sequence but is provided to demonstrate sequence numbers following initialization.
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10 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Specifications
Interface Communication FailuresInterface communication errors indicate that the Analyzer-to-LAS interface is unreliable. Since the interface is unreliable, communications between the system and the LAS are disabled.
If any of the following conditions occur, the system goes into an error state and reports a condition code:
The system reports or receives two consecutive NAK messages as a result of two failed send attempts.
A message acknowledgment is not received within 250ms.
The last byte received, based on the message length, was not an ETX.
The interface initialization sequence fails.
The last byte, based on the message length, was not received within 250ms from the STX.
The message type field is invalid.
Note: See the REINITIALIZE COMMUNICATION message for recovering from interface communication failures.
Presentation Layer
Message AcknowledgedThe Message Acknowledged message is sent to the receiver for every message received with a valid CRC.
The following format is used for the Message Acknowledged message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x01
byte 4: Sequence Number
byte 5: CRC
byte 6: ETX
Message Not AcknowledgedThe Message Not Acknowledged message is sent to the receiver for every message received with an invalid CRC or if a communication error occurred during transmission.
The following format is used for the Message Not Acknowledged message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x02
byte 4: Sequence Number
byte 5: CRC
byte 6: ETX
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Specifications
Illegal Command ReceivedThe Illegal Command Received message is sent to the to LAS when an unrecognized command is received or when a logical error occurs, such as an invalid sequence number or when commands are received out of order.
The following format is used for the Illegal Command Received message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC009
byte 7: Error Type (see the table below)
byte 8, 9: Error Word (see the table below)
byte 10: CRC
byte 11: ETX
Error Type Error Type Description Error Word Contents
0x00Invalid command
A non-existent command was received. An invalid command was received. This could be a message with a Message ID that is not defined, or a Message ID that is not supported by the system. For example, the system does not recognize the ANALYZER STATUS message (0xC007).
MSB = high byte of Message ID receivedLSB = low byte
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12 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Specifications
0x01Logical Order Error
A command that violates the logical order of operations was received.A command was sent out of sequence. The system will issue this error under the following conditions: A SAMPLE IN POSITION message is
sent without a corresponding PREPARE TO RUN SAMPLE message.
A second PREPARE TO RUN SAMPLE message is sent before the system sends a SAMPLING COMPLETE message.
A second SAMPLE IN POSITION message is sent before the system sends a SAMPLING COMPLETE message.
A QUERY ANALYZER INVENTORY message is sent during external sampling.
A QUERY ANALYZER RESOURCES message is sent during external sampling.
MSB = high byte of Message ID receivedLSB = low byte
0x02Sequence Number Error
A sequence number error was detected. The system issues this error if the use of sequence numbers was enabled during initialization by the LAS, and the system receives a message with a sequence number that does not match the expected sequence number. See REINITIALIZE COMMUNICATIONS for how to recover from this error.
MSB = sequence number expectedLSB = sequence number received
Error Type Error Type Description Error Word Contents
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Pub. No.: J39931EN Specification for Automation Interface 13Issued: 2011-01-10 VITROS 4600 Chemistry System
Specifications
Note: LAS commands sent to the system should be spaced at least 100ms apart to allow the system to respond with an ILLEGAL COMMAND message if necessary.
Query Analyzer StatusThe Query Analyzer Status message is sent by the LAS to request the system report its status. This command is performed before starting a new sample unless a SAMPLING COMPLETE response has just been received.
The following format is used for the Query Analyzer Status message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC006
byte 7: CRC
byte 8: ETX
0x03Invalid Data
Invalid data was discovered in the message. A data field from the previous message contained unexpected data. The following conditions will cause the system to send this error: The Container Type in a PREPARE
TO RUN SAMPLE message is invalid. The Sample ID in a PREPARE TO
RUN SAMPLE or a SAMPLE ROUTED message contains zero or more than 15 characters.
The Sample ID in a PREPARE TO RUN SAMPLE or a SAMPLE ROUTED message contains invalid UTF-8 characters or insufficient characters (according to the Sample ID Length field).
The Recovery Type in a REINITIALIZE COMMUNICATIONS message is invalid.
MSB = 0x00LSB:
0x01 = Invalid container type from PREPARE TO RUN SAMPLE
0x02 = Invalid Sample ID length from PREPARE TO RUN SAMPLE or SAMPLE ROUTED
0x03 = Invalid Sample ID data from PREPARE TO RUN SAMPLE or SAMPLE ROUTED
0x04 = Invalid recovery type from REINITIALIZE COMMUNICATIONS
Error Type Error Type Description Error Word Contents
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14 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Specifications
Analyzer StatusThe Analyzer Status message is sent by the system to indicate its status. This message is sent in response to a QUERY ANALYZER STATUS or as an asynchronous message during the initialization sequence.
The following format is used for the Analyzer Status message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC007
byte 7: Status Code (see table below)
byte 8: CRC
byte 9: ETX
Analyzer Status Codes
Status Codes Status Code Descriptions
0x00Analyzer is ready to Sample
The Analyzer is ready to process a sample. The LAS may issue a PREPARE TO RUN SAMPLE message to the Analyzer.
0x01Analyzer is Busy Performing an External Sample
The Analyzer is processing an external sample (off the automation track). The LAS must wait for a SAMPLING COMPLETE message to be issued by the Analyzer before presenting any new samples to the Analyzer.
0x02Analyzer is Busy Performing an Internal Sample
The Analyzer is processing an internal sample (onboard sample tray). This status is necessary since the use of the Analyzer is lab dependent. The LAS should periodically issue a QUERY ANALYZER STATUS message to the Analyzer until the status code indicates that the "Analyzer Is Ready To Sample status before presenting any new samples to the Analyzer.
0x03Analyzer is Equilibrating
The Analyzer is in the process of bringing the thermal conditions into proper range for processing samples. This status occurs normally when the Analyzer is initialized or if a thermally controlled component of the Analyzer is opened. The LAS should periodically issue a QUERY ANALYZER STATUS message to the Analyzer until the status code indicates that the Analyzer Is Ready To Sample status before presenting any new samples to the Analyzer. It may require 30 to 40 minutes before the Analyzer is ready to sample.
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Specifications
0x04Analyzer has a Fatal Error
The Analyzer is inoperable and is not ready to process samples. One or more subsystems have experienced a mechanical malfunction. The LAS should attempt to restore the Analyzer to an operational state by issuing a REINITIALIZE METERING message to the Analyzer. The LAS should then periodically issue a QUERY ANALYZER STATUS message to the Analyzer until the status code indicates that the Analyzer Is Ready To Sample status. For most cases initialization should take up to two minutes; however there are some situations that could take up to ten minutes. Therefore, it is suggested that, if the LAS does not receive an Analyzer status of Analyzer Is Ready To Sample within ten minutes after issuing the REINITIALIZE METERING message, the LAS alert the operator and reroute samples to another Analyzer.
0x05Analyzer is Not Available
This status indicates that the Analyzer is not ready to process samples. It indicates that an operator is performing manual operations such as loading reagents, diagnostics, initializing, or loading an ADD. The LAS should periodically issue a QUERY ANALYZER STATUS message to the Analyzer until the status code indicates that the Analyzer Is Ready To Sample status before presenting any new samples to the Analyzer.
0x06Failed in the Sample
The Analyzer's metering proboscis has mechanically failed while inside the samplecontainer. The LAS should not attempt to move the sample to prevent the possibility of a broken tube and sample spill. The LAS should attempt to restore the Analyzer to an operational state by issuing a REINITIALIZE METERING message to the Analyzer. The LAS should then periodically issue a QUERY ANALYZER STATUS message to theAnalyzer until the status code indicates that the Analyzer Is Ready To Sample status. For most cases initialization should take up to two minutes; however there are some situations that could take up to ten minutes. Therefore, it is suggested that, if the LAS does not receive an Analyzer status of Analyzer Is Ready To Sample within ten minutes after issuing the REINITIALIZE METERING message, the LAS alert the operator. The current sample should not be moved by the LAS and other samples may be rerouted to another Analyzer until the Analyzer is ready to sample.
Status Codes Status Code Descriptions
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16 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Specifications
Prepare To Run SampleThe Prepare to Run Sample message is sent by the LAS to indicate that a sample with the given parameters is being placed for aspiration. This command begins the sampling process.
The following format is used for the Prepare to Run Sample message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC002
byte 7: Reserved (always 0x00)
byte 8: Reserved (always 0x00)
byte 9: Container Type (see table below)
byte 10: Sample ID Length (in bytes)
byte 11 to n: Sample ID (15 characters max)
byte n+1: Reserved (always 0x00)
byte n+2: Reserved (always 0x00)
byte n+3: CRC
byte n+4: ETX
Container Types
Note: The sample tube does not need to be in position at the POR to for the LAS to send the Prepare to Run Sample message.
Note: The contents of reserved fields are ignored.Note: The Sample ID should be encoded using UTF-8 or Extended ASCII depending on the
configured encoding.
Status Codes Status Code Descriptions
0x00 16mm diameter tube
0x01 13mm diameter tube
0x02 10mm diameter tube (10.25 mm)
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Specifications
Sample In PositionThe Sample in Position message is sent by the LAS to inform the system that the sample it is preparing to run is now in the correct position for sampling to begin.
The following format is used for the Sample In Position message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC004
byte 7: CRC
byte 8: ETX
Sampling CompleteThe Sampling Complete message is sent by the system to inform the LAS the metering for the sample is complete.
The following format is used for the Sampling Complete message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC005
byte 7: Metering Status (see table below)
byte 8: Sample ID Length (in bytes)
byte 9 to n: Sample ID (15 characters max)
byte n+1: CRC
byte n+2: ETX
Metering Status Codes
In the case of any status that indicates that the sample was not processed, the process of commanding the system to sample should restart by issuing a new PREPARE TO RUN SAMPLE message followed by a SAMPLE IN POSITION message. These commands should be reissued using the same sample ID and parameters as were used for the sample that failed to run.
Note: These status codes are mutually exclusive.
Status Codes Metering Status Descriptions
0x00Sample Aspirated With No Error
The sample was aspirated with no errors. No information is known about sample dispense errors, since the SAMPLING COMPLETE message is sent before any sample is dispensed.
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18 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Specifications
0x01No Sample Program For Sample ID
The Analyzer could not find a sample program for the Sample ID that was presented by the LAS. The LAS either routes the sample to another Analyzer with the proper sample program, or coordinates with the LIS to download the sample program and then re-presents the sample to the Analyzer. Consult with the laboratory to determine the desired response to this status.
0x02SAMPLE IN POSITION Not Received In Time
A PREPARE TO RUN SAMPLE message was received but a SAMPLE IN POSITION message was not received in the proper time frame. The SAMPLE IN POSITION message must be issued by the LAS within 6.4 seconds after issuing the PREPARE TO RUN SAMPLE message. The LAS should reissue the PREPARE TO RUN SAMPLE message. This is the only case where a SAMPLING COMPLETE message will be sent prior to a SAMPLE IN POSITION.
0x03Completed With Error
A problem was encountered while aspirating sample from the container. This status can be due to a clot or bubble detected. If Enhanced LIS plus is enabled the LAS can query the LIS for specific error information to decide what the best corrective action is. Since this status indicates that user attention is required for follow-up, consult the laboratory to determine the desired response to this status.
0x04Internal Sample Has Priority
An internal sample is being processed. The LAS should periodically issue a QUERY ANALYZER STATUS message until the Analyzer reports a status of Analyzer Ready To Sample. The LAS may then proceed to follow the normal procedure for presenting a sample to the Analyzer by first issuing a PREPARE TO RUN SAMPLE message to the Analyzer. The LAS may also reroute the sample to another Analyzer for processing.
0x05Analyzer Inoperable
The Analyzer is inoperable and is not ready to process samples. One or more subsystems have experience a mechanical malfunction. The LAS should attempt to restore the Analyzer to an operational state by issuing a REINITIALIZE METERING message to the Analyzer. The LAS should then periodically issue a QUERY ANALYZER STATUS message to the Analyzer until the status code indicates that the Analyzer Is Ready To Sample status. For most cases initialization should take up to two minutes; however there are some situations that could take up to ten minutes. Therefore, it is suggested that, if the LAS does not receive an Analyzer status of Analyzer Is Ready To Sample within ten minutes after issuing the REINITIALIZE METERING message, the LAS alert the operator and reroute samples to another Analyzer.
0x06Duplicate Sample ID
Tests are in process for the given sample ID. Duplicate sample IDs are not processed.
0x07Analyzer Not Available
The Analyzer is not ready to process samples. It indicates that an operator is performing manual operations such as loading reagents, diagnostics, initializing, or loading an ADD. The LAS should periodically issue a QUERY ANALYZER STATUS message to the Analyzer until the status code indicates that the Analyzer Is Ready To Sample status before presenting any new samples to the Analyzer.
Status Codes Metering Status Descriptions
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Specifications
Note: The Sample ID should be encoded using UTF-8 or Extended ASCII depending on the configured encoding.
Reinitialize MeteringThe Reinitialize Metering message is sent by the LAS to request that the system reinitialize any inoperable subsystems on the system. This message also resets the expected sample command on the system allowing the LAS to remove a sample that is in progress.
The following format is used for the Reinitialize Metering message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC008
byte 7: CRC
byte 8: ETX
0x08Metering Failed In the Sample
The Analyzer's metering proboscis has mechanically failed while inside the sample container. The LAS should not attempt to move the sample to prevent the possibility of a broken tube and sample spill. The LAS should attempt to restore the Analyzer to an operational state by issuing a REINITIALIZE METERING message to the Analyzer. The LAS should then periodically issue a QUERY ANALYZER STATUS message to the Analyzer until the status code indicates that the Analyzer Is Ready To Sample status. For most cases initialization should take up to two minutes; however there are some situations that could take up to ten minutes. Therefore, it is suggested that, if the LAS does not receive an Analyzer status of Analyzer Is Ready To Sample within ten minutes after issuing the REINITIALIZE METERING message, the LAS alert the operator. The current sample should not be moved by the LAS and other samples may be rerouted to another Analyzer until the Analyzer is ready to sample.
Status Codes Metering Status Descriptions
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20 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Specifications
Reinitialize CommunicationsThe Reinitialize Communications message is sent by the LAS to the system to attempt to recover from interface communication failures and sequence number errors.
The following format is used for the Reinitialize Communications message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC00A
byte 7: Recovery Type (see table below)
byte 8: CRC
byte 9: ETX
Recovery Types
Sample RoutedThe LAS send the Sample Routed message to the system when a sample has been routed to the system in order to give the system enough time to perform a query for a sample program if needed.
The following format is used for the Sample Routed message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC010
byte 7: Sample ID Length (in bytes)
byte 8 to n: Sample ID (15 characters max)
byte n+1: CRC
byte n+2: ETX
Status Codes Metering Status Descriptions
0x00 Restart sequence numbers, using the sequence number byte in the REINITIALIZE COMMUNICATIONS message
0x01 Attempt to recover from an interface communication failure.
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Specifications
Query Analyzer InventoryThe Query Analyzer Inventory message is sent by the LAS to request the system report its reagent inventory (carts and packs).
The following format is used for the Query Analyzer Inventory message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC00C
byte 7: CRC
byte 8: ETX
Analyzer InventoryThe system sends a sequence of Analyzer Inventory messages in response to a QUERY ANALYZER INVENTORY request from the LAS.
The following format is used for the Analyzer Inventory message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC00D
byte 7: Last message; 0x01 indicates last message in response, otherwise 0x00
byte 8: Number of assays in message (max of 10 per message)
byte 9 to 6n+8: One repetition per assay
byte 1, 2: Analyte Code
byte 3, 4: Available test count
byte 5: Current Calibration
bit 1: Serum current
bit 2: CSF current
bit 3: Urine current
bit 4: Whole Blood current
bit 5: Plasma current
bit 6: Amnio current
bit 7: Cord Blood current
bit 8: Reserved value
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22 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Specifications
byte 6: Calibrated Status
bit 1: Serum calibrated
bit 2: CSF calibrated
bit 3: Urine calibrated
bit 4: Whole Blood calibrated
bit 5: Plasma calibrated
bit 6: Amnio calibrated
bit 7: Cord Blood calibrated
bit 8: Reserved value
byte 6n+9: CRC
byte 6n+10: ETX
Query Analyzer ResourcesThe Query Analyzer Resources message is sent by the LAS to request the system report its resources (bulk fluids, tips, cuvettes, waste, etc.).
The following format is used for the Query Analyzer Resources message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC00E
byte 7: CRC
byte 8: ETX
Analyzer ResourcesThe Analyzer Resources message is sent by the system to the LAS in response to the QUERY ANALYZER RESOURCES command.
Note: Bytes 13, 14, 15, 16, 25 and 27 are sent by the system but ignored by the LAS.The following format is used for the Analyzer Resources message:
byte 1: STX
byte 2: Message Length
byte 3: Message Type = 0x00
byte 4: Sequence Number
byte 5, 6: Message ID = 0xC00F
byte 7, 8: ERF Level
byte 9, 10: IWF Level
byte 11, 12: Reserved, set to 0x0000 (possible SWF)
byte 13, 14: Signal Reagent Level
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Query Analyzer Status
byte 15, 16: UWR volume in mL
byte 17, 18: VersaTip supply count
byte 19, 20: MicroTip supply count
byte 21, 22: Cuvette supply count
byte 23, 24: Available MicroSlide waste count
byte 25: Available MicroImmunoassay waste percent full
byte 26: Available reagent metering tip waste percent full
byte 27: Available liquid waste percent full
byte 28: Number of diluents
byte 29 to 4n+28: One repetition per diluent
byte 1, 2: Diluent Code
byte 3, 4: Available count or volume in mL.
byte 4n+29: CRC
byte 4n+30: ETX
Note: If the VersaTip hopper sensor is blocked, an accurate count of VersaTips cannot be determined, only that the number of tips available is greater than 300. This condition is encoded with 0xFFFF and the count is considered an infinite supply of tips.
Query Analyzer StatusWhen the LAS sends a QUERY ANALYZER STATUS, the system responds with an ANALYZER STATUS message containing the appropriate status code based on the current state of the system.
Note: The LAS may query the system for status at any time, and should do so before any requests to process samples.
Sample Metering HandshakingA three-message handshake between the LAS and system to meter a sample consists of the following messages in the order listed:
1. PREPARE TO RUN SAMPLE - passes the control of a sample to the system and provides the sample ID and container type information.
2. SAMPLE IN POSITION - informs the system that the sample is at the POR and ready for metering.
3. SAMPLING COMPLETE - passes the control of the sample back to the LAS and provides metering status.
See Figure 2: Sample Metering Handshake.
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24 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Sample Metering Handshaking
Figure 2: Sample Metering Handshake
The system sends a SAMPLING COMPLETE message to the LAS with the metering status code set to Sample Position Not Received In Time if no SAMPLE IN POSITION message is received within 6.4 seconds of receiving a PREPARE TO RUN SAMPLE.
Note: In the worst case, the SAMPLE IN POSITION message needs to be received about 6.4 seconds after receiving a PREPARE TO RUN SAMPLE message.
Note: In addition, the LAS needs to send a PREPARE TO RUN SAMPLE message for the next sample within 100ms after receiving a SAMPLING COMPLETE message in order to maintain throughput. Failure to meet this timing may result in a skip cycle.
Note: The only time a SAMPLING COMPLETE message is sent before a SAMPLE IN POSITION message will be if the SAMPLE IN POSITION is not received in time.
The system sends a SAMPLING COMPLETE message to the LAS with the metering status code set to No Sample Program For Sample ID if no sample program could be found for the sample ID in the PREPARE TO RUN SAMPLE message.
Lab Automation System
Query Analyzer StatusACKASM - Ready to Sample
ACK
Prepare to Run SampleACK
ACKSample in Position
ACK
Query Analyzer Status
ASM - External in Progress
ACK
Sampling CompleteACK
Note: ASM = Analyzer Status Message
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Sample Metering Handshaking
The system sends a SAMPLING COMPLETE message to the LAS with the metering status code set to Completed With Error if an error occurred that would prevent running one or more tests.
Note: This situation only applies to aspirate errors, which are any error that occur while the proboscis is over the sample container.
The system sends a SAMPLING COMPLETE message to the LAS with the metering status code set to Internal Sample Has Priority if an internal sample is being metered when the SAMPLE IN POSITION message is received.
The system sends a SAMPLING COMPLETE message to the LAS with the metering status code set to Analyzer Inoperable if one or more subsystems are in a reduced state when the SAMPLE IN POSITION message is received.
Note: The LAS may attempt to recover from this status by issuing a REINITIALIZE METERING command.
The system sends a SAMPLING COMPLETE message to the LAS with the metering status code set to Duplicate Sample ID if there are tests in process for the sample ID in the PREPARE TO RUN SAMPLE message.
Note: The duplicate sample will not be processed. The system sends a SAMPLING COMPLETE message to the LAS with the metering status code set to Analyzer Not Available if the system is unable to process samples when the SAMPLE IN POSITION message is received.
Note: This situation occurs during initialization, equilibration, ADD loading, diagnostics mode or when some Options & Configuration screens are displayed.
The system sends a SAMPLING COMPLETE message to the LAS with the metering status code set to Metering Failed In The Sample if a mechanical error with the metering system occurred when the proboscis was inside the sample container.
It is assumed that a sample program has been downloaded before the PREPARE TO RUN SAMPLE command. However, if the system is configured for host query, a mechanism needs to be in place to initiate a host query independent of the PREPARE TO RUN SAMPLE. The SAMPLE ROUTED message facilitates this. A SAMPLE ROUTED message is sent to the system as soon as the LAS has routed a sample to it in order to maximize the time available to perform a host query.
The system attempts to send a host query when it receives a SAMPLE ROUTED message for the sample ID contained in the message.
See Figure 3: Sample Routed Notification.
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26 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Reinitialize Metering
Figure 3: Sample Routed Notification
Reinitialize MeteringThe system attempts to reinitialize any inoperable subsystems when it receives a REINITIALIZE METERING message from the LAS.
Note: The LAS issues a REINITIALIZE METERING message when an ANALYZER STATUS has an inoperable status or SAMPLING COMPLETE indicates sampling failed due to an inoperable system or metering failed in the sample.
A REINITIALIZE METERING message resets the Sample Metering Handshake so the next expected message is PREPARE TO RUN SAMPLE.
A REINITIALIZES METERING message aborts any further sample aspirations from the interface where the message is received.
Note: The sample processing acts as if a mechanical sample aspiration error occurred. The aborted reps are coded ME and reps that have already aspirated will continue to process normally.
Lab Automation System
Query Analyzer StatusACKAnalyzer Status Message
ACK
Prepare to Run SampleACK
ACKSample in Position
ACK
Sample in Bypass
Sample in Bypass
ACK
Sampling CompleteACK
Note: Each Sample in Bypass message initiates a host query to the LIS.
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Reinitialize Metering
See Figure 4: Reinitialize Metering.
Figure 4: Reinitialize Metering
Lab Automation System
Query Analyzer StatusACKAnalyzer Status Message (ASM)
ACK
Prepare to Run SampleACK
ACKSample in Position
Reinitialize Metering
ACK
ACK
Query Analyzer Status
ACK
Sampling Complete (Failed in Sample or Analyzer Inoperable)
ASM - Analyzer Initializing
ACK
Query Analyzer StatusACKASM - Analyzer is Ready
ACK
Note: ASM = Analyzer Status Message
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28 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Reinitialize Communications
Reinitialize CommunicationsIf the system receives a REINITIALIZE COMMUNICATIONS message with a recovery of Reset Sequence Number, the system restarts the expected sequence numbers using the sequence number in the REINITIALIZE COMMUNICATIONS message.
Note: The LAS may issue a REINITIALIZE COMMUNICATIONS message after receiving an ILLEGAL COMMAND RECEIVED message with Sequence Number Error error type.
If the system receives a REINITIALIZE COMMUNICATIONS message with a recovery of Recover From Communication Failure, the system starts the Interface Initialization Sequence.
Query Analyzer Inventory/ResourcesIf the system receives a QUERY ANALYZER INVENTORY message, the system responds with an ANALYZER INVENTORY message(s) containing the current assay reagent inventory.
Note: The content of the system inventory matches what is shown on the View by Assay screen. within Reagent Management. This reports the worst case for each assay across all fluids and reagents. Uncalibrated reagents will not be counted since they cannot be used.
If the system receives a QUERY ANALYZER RESOURCES message, the system responds with an ANALYZER RESOURCES message containing the current onboard resource levels.
See Figure 5: Query Analyzer Inventory/Resources.
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Illegal Commands
Figure 5: Query Analyzer Inventory/Resources
Illegal CommandsThe system sends an ILLEGAL COMMAND RECEIVED message to the LAS with the error type set to Invalid Command if any of the following conditions are met:
The Message ID is not recognized.
The Message ID belongs to a message that only the system should send (for example, ANALYZER STATUS).
The system sends an ILLEGAL COMMAND RECEIVED message to the LAS with the error type set to Sequence Number Error if all the following conditions are met:
Sequence numbers are enabled.
The sequence number of an incoming message does not match the expected sequence number.
Lab Automation System
Query Analyzer InventoryACKAnalyzer Inventory(last message = 0x00)
ACK
ACK
ACKQuery Analyzer Resources
Analyzer ResourcesACK
Analyzer Inventory(last message = 0x00)
Analyzer Inventory(last message = 0x01)
ACK
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30 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Internationalization and Language Support
The system sends an ILLEGAL COMMAND RECEIVED message to the LAS with the error type set to Logical Order Error if any of the following conditions are met:
A SAMPLE IN POSITION message is sent without a corresponding PREPARE TO RUN SAMPLE.
A second PREPARE TO RUN SAMPLE message is sent before the system sends a SAMPLING COMPLETE message.
A second SAMPLE IN POSITION message is sent before the system sends a SAMPLING COMPLETE message.
A QUERY ANALYZER INVENTORY message is sent during external sampling.
A QUERY ANALYZER RESOURCES message is sent during external sampling.
The system sends an ILLEGAL COMMAND RECEIVED message to the LAS with the error type set to Invalid Data if any of the following conditions are met:
The container type in a PREPARE TO RUN SAMPLE message is invalid.
The Sample ID in a PREPARE TO RUN SAMPLE or a SAMPLE ROUTED message contains zero or more than 15 characters.
The Sample ID in a PREPARE TO RUN SAMPLE or a SAMPLE ROUTED message contains invalid UTF-8 characters or insufficient characters (according to the sample id length).
The recovery type in a REINITIALIZE COMMUNICATIONS message is invalid.
Internationalization and Language SupportThe system supports the following configurations for Sample ID character encoding:
UTF-8 (Unicode)
Extended ASCII (Refer to ISO 8859-1.)
Timing Requirements The automation system must complete the following steps within the required time period after the SAMPLING COMPLETE message is sent by the system to guarantee system throughput. Failure to meet this timing will result in decreased system throughput.
Time from SAMPLING COMPLETE to PREPARE TO RUN SAMPLE - 100 milliseconds.
Time from SAMPLING COMPLETE to SAMPLE IN POSITION- 6.4 seconds (6.5 seconds after PREPARE TO RUN SAMPLE).
All ACK and NAK messages must be sent within 250ms of the received command/response.
ACK messages sent by the LAS during the initialization sequence should be separated by no more than 500ms.
LAS commands sent to the system must be spaced at least 100ms apart to allow the illegal command response. This is to allow the system time to respond with an ILLEGAL COMMAND RECEIVED message if required.
The last byte of a message, based on the message length, must be received within 250ms from receipt of the STX.
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Lab Automation Communication Scenarios
Lab Automation Communication Scenarios
Interface Initialization SequenceFigure 6: Interface Initialization Sequence
Lab Automation System
READY if no response in 1 second
ACK
ACK
ACK if no response in 0.5second
Analyzer Status Message
ACK
Query Analyzer Status
ACK
Analyzer Status Message
ACK
READY
Sequence Number = A
Sequence Number = A+1
Sequence Number = A+2
Sequence Number = 0
Sequence Number = 0
Sequence Number = A+3
Sequence Number = A+3
Sequence Number = 1
Sequence Number = 1
ACKSequence Number = A+2
Initialization Complete
Note: The Query Analyzer Status message is not part of the initialization sequence but is provided to demonstrate sequence numbers following initialization.
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32 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Lab Automation Communication Scenarios
Run Two SamplesFigure 7: Run Two Samples
Lab Automation System
Query Analyzer StatusACKASM - Ready to Sample
ACK
ACK
ACKSample in Position
ACK
ACK
ACK
ACK
Sample in PositionACK
Query Analyzer StatusACK
ASM - Remote in Progress
ACK
Query Analyzer Status
ASM - Remote in Progress
Query Analyzer Status
ASM - Manual Operation
Prepare to Run Sample
ACK
Sampling Complete
Prepare to Run Sample
ACK
ACKSampling Complete
ACK
ACK
Query Analyzer Status
ASM - Ready to Sample
Note: ASM = Analyzer Status Message
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Lab Automation Communication Scenarios
Remote Sample Startup Interrupted by Local SampleFigure 8: Remote Sample Startup Interrupted by Local Sample
Lab Automation System
Query Analyzer StatusACKASM - Ready to Sample
ACK
ACK
ACKSample in Position
ACK
ACK
ACK
ACK
Sample in PositionACK
Query Analyzer StatusACK
ASM - Remote in ProgressACK
Query Analyzer Status
ASM - Manual Operation
Query Analyzer Status
ASM - Manual Operation
Prepare to Run Sample
ACKSampling Complete
Prepare to Run Sample
ACK
ACKSampling Complete (did not sample - Manual had priority
ACK
ACK
Query Analyzer Status
ASM - Ready to Sample
Note: ASM = Analyzer Status Message
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34 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Lab Automation Communication Scenarios
Non Fatal Error Condition (Insufficient Inventory)
Note: In the case of multiple tests per sample and only some of the tests have insufficient inventory, the tests which have inventory will be posted to the Lab Automation.
Figure 9: Non Fatal Error Condition (Insufficient Inventory)
Lab Automation System
Query Analyzer StatusACKAnalyzer Status Message
ACK
ACK
ACKSample in Position
ACK
ACK
Sampling Complete - Completed with Error
Prepare to Run Sample
Sampling Complete
Prepare to Run Sample
ACK
ACKSample in Position
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Lab Automation Communication Scenarios
Non Fatal Error Condition (Unknown Sample ID)Figure 10: Non Fatal Error Condition (Unknown Sample ID)
Lab Automation System
Query Analyzer StatusACKAnalyzer Status Message
ACK
ACK
ACKSample in Position
ACK
ACK
Sampling Complete - Unknown Sample ID
Prepare to Run Sample
Sampling Complete
Prepare to Run Sample
ACK
ACKSample in Position
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36 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Lab Automation Communication Scenarios
Non Fatal Error Condition (Sample In Position Not Received in Time)Figure 11: Non Fatal Error Condition (Sample In Position Not Received In Time)
Lab Automation System
Query Analyzer StatusACKAnalyzer Status Message
ACK
ACK
ACK
ACK
Sampling Complete - Sample in Position Not Recd in Time
Prepare to Run Sample
Sampling Complete
Prepare to Run Sample
ACK
ACKSample in Position
ACK
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Lab Automation Communication Scenarios
Fatal Error Condition
Note: If the system still reports a fatal condition after reinitialization, an operator must be called to check the system. The module and error number reported to the LIS will contain more information about the error.
Figure 12: Fatal Error Condition
Lab Automation System
Query Analyzer StatusACKAnalyzer Status Message (ASM)
ACK
ACK
ACKSample in Position
ACK
Sampling Complete - Failed in Sample or Analyzer Inoperable
Query Analyzer Status
ASM - Analyzer Initializing
Prepare to Run Sample
ACK
Initialize Analyzer
ACK
ACK
Query Analyzer Status
ASM - Analyzer is Ready
ACK
Note: ASM = Analyzer Status Message
ACK
Query Analyzer Status
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38 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Lab Automation Communication Scenarios
Sample Routed Notification
Note: Each Sample Routed message initiates a host query to the LIS.Figure 13: Sample Routed Notification
Lab Automation System
Sample Routed (SID1)ACK
ACK
ACKSample in Position
ACKSampling Complete
Sample Routed (SID2)
ACK
ACK
Prepare to Run Sample (SID2)
ACK
Sample in Position
ACKSampling Complete
Prepare to Run Sample (SID1)
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Lab Automation Communication Scenarios
Query Analyzer InventoryFigure 14: Query Analyzer Inventory
Lab Automation System
Query Analyzer InventoryACK
ACK
ACKQuery Analyzer Resources
Analyzer ResourcesACK
ACKAnalyzer Inventory(Last message = 0x00)
Analyzer Inventory(Last message = 0x00)
ACK
Analyzer Inventory(Last message = 0x01)
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40 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Electrical Interfaces
Section 3. Hardware InterfacesNote: In this section, line drawings reflect the VITROS 5,1 FS Chemistry System; however, the
VITROS 4600 Chemistry System has the same dimensions and mechanical interface as the VITROS 5,1 FS Chemistry System.
Electrical InterfacesAnalyzer to Laboratory Information System (LIS)Refer to the Laboratory Information System (LIS) Guide for VITROS 5600 Integrated System, the VITROS 3600 Immunodiagnostic System, and the VITROS 4600 Chemistry System, J32799.
Analyzer to Lab Automation SystemFull RS232 LAS communication interface. The following pins are used (system side):
3 - transmitted data (TxD)
2 - receive data (RxD)
5 - circuit common
The interface has a communication port to the Lab Automation Computer.
Communication parameters:
1 start bit
8 data bits
1 or 2 stop bits
EVEN, ODD or no parity
9600, 19200 or 38400 baud rate.
The system end is a 9-pin DTE male.
No Hardware or Software flow control.
Cable Requirements for LAS port
Data Rate (bps) Length meters (ft.) 9,600 15m (50 ft.) max.
Shielded 22AWG wire
Electrical Interface at SampleThe frame section of the Lab Automation System, which supports the sample must be connected to safety ground. The lab automation system and Analyzer must not be physically connected.
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Analyzer Dimensions
Analyzer DimensionsThis section describes the overall size of the VITROS 4600 System.
Figure 15: Analyzer Dimensions
Reference Description
A 233.7 cm (92 in)
B 83.8 cm (33 in)
C 132.1 cm (52 in)
D 205.7 cm (81in)
Weight 612.4 kg (1350 lb)
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42 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Site Specifications
Site SpecificationsThe VITROS 4600 Chemistry System site specifications are described completely in Site Specifications for the VITROS 5,1 FS Chemistry System and the VITROS 4600 Chemistry System, J39897 explain:
Electrical Power Requirements
System Environmental Specifications
Requirements at the Customer Site
Specifications for the VITROS 4600 System and Printer
Specifications for the optional Heat Rejection Plenum
Deviations from site specifications should be reviewed with a Ortho Clinical Diagnostics Field Service Representative.
It is recommended that the floor be level within one inch over 10 feet.
Service AccessThe system requires service access from all four sides of the machine. Site Specifications for the VITROS 5,1 FS Chemistry System and the VITROS 4600 Chemistry System, J39897 indicates the appropriate clearances. Access to the machine depends on the track configuration and must be determined by both OCD and the automation vendor. Some general guidelines are:
Track and supports should be configured to allow access to rear panel quarter-turn fasteners.
Spacing between the track and system should allow the removal of the rear panel covers by unfastening the quarter-turns, tipping the covers away from the system, lifting the rear panels several inches, and moving the panels to the side of the system.
Figure 16: Service Access
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Positional Requirements
System Heat Rejection and Air Intake ZonesThe system contains air intake ports and exhaust ports. The location of these ports are shown in Figure 17. These ports must not be blocked.
The thermal characteristics of the system are explained in Site Specifications for the VITROS 5,1 FS Chemistry System and the VITROS 4600 Chemistry System, J39897.
Figure 17: Air Intake and Exhaust Ports
Positional RequirementsThis section describes the relative position between system and the sample container. It is assumed that the Lab Automation System will be able to capture and hold the sample container to allow direct aspiration by the system. The following assumptions apply relative to the interface between the two systems.
The system will be located relative to the automation track through a supplied clamping mechanism mounted to the floor.
The automation track can be configured to meet the system requirements for sample tube height. See Sample Tube Height: Vertical Dimension for POR on page 51
The system provides a limited amount of adjustment of the sample metering proboscis in the X, Y, and Z directions of the sample travel path. Refer to Figure 18.
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44 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
System to Track Positioning/Floor Mounts or Anchors
Figure 18: Positional Requirements - Back of System (With Cabinetry)
System to Track Positioning/Floor Mounts or Anchors
Ortho Clinical Diagnostics provides two methods of locating and positioning the system to the floor in order to maintain alignment relative to the automation system. These floor mounts also allow service personnel to disengage the system for service and reposition the system relative to the automation system.The ability to repeat the exact position of system relative to the original POR depends on the following
The ability to restore the system to the exact position relative to the original POR depends on the following factors:
The anchors have been installed correctly. Reference the Installation Instructions for the VITROS 5,1 FS Chemistry System and VITROS 4600 Chemistry System: AT Seismic Anchorages, J39896.
The engagement of the system with the anchors is not so aggressive to cause a shift in anchor positions relative to the floor.
The automation track is rigidly mounted so there is no relative motion between the system and the track. It is highly recommended to check the alignments of the system to the track position if it has been moved (disengaged from anchors) for some reason. VITROS 4600 System Metering Proboscis Alignment on page 47
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Pub. No.: J39931EN Specification for Automation Interface 45Issued: 2011-01-10 VITROS 4600 Chemistry System
System to Track Positioning/Floor Mounts or Anchors
Floor Mounts/AnchorsTwo types of floor mounts can be used to position the system relative to the automation system. Which type of mount to use depends on the site install requirements.
Standard Floor mounts / Anchors
Standard Anchors are included in the AT Accessory and do not need to be ordered separately
Figure 19: Standard Floor Mounts.
Seismic Floor Mounts /Anchors Catalog # 6802245
These are intended for use where seismic events are of concern. The design of these floor mounts have been submitted for approval by California Office of Statewide Health Planning and Development (OSHPD) regulations on earthquake brackets (ref OAS-MIS-PH3001 and OPA-0627). These anchors are ordered in addition to the AT Accessory.
Figure 20: Seismic Mounts
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46 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Sample Positioning and Adjustments
Sample Positioning and AdjustmentsRelative to sample positioning, the following rules apply:
Maximum fluid aspiration depth is 3.86 inches (98mm) from top of the sample tube. See Supported Containers on page 54 for fill requirements.
For Aspiration, all sample tubes regardless of size are to be centered about the same vertical axis.
OCD provides a software adjustment for set-up at the customer site to align proboscis with the track. The range of adjustment will be 50mm (2.0 inch) in X direction of metering probe travel. Once this value is set, repeatability of positioning in X direction should be +/- .028 inch (0.7 mm).
Sample Center Device Adjustments: Positioning ResponsibilitiesThe following table indicates the alignment adjustment responsibilities for the sample position to the aspiration probe for each degree of freedom in a three-dimensional space.
Adjustment Responsibility
Y Direction Automation Supplier
X and Z Directions OCD Fine positionAutomation supplier for Coarse position to suggested Point Of Reference (POR)
Rotation about X axis Automation Supplier
Rotation about Y axis Automation Supplier
Rotation about Z axis (Not required)
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Sample Positioning and Adjustments
Figure 21: Sample Position
VITROS 4600 System Metering Proboscis AlignmentWhen the system and the sample tube grasping/centering device on the track are properly aligned, the proboscis with disposable tip should travel to a depth of 98 mm in a 13mm diameter sample tube, without touching the inside wall. This alignment is primarily supported by the system proboscis adjustment (horizontal and perpendicular to sample travel) and sample position adjustment along the track length.
Figure 22: System Proboscis
The Lab Automation System vendor has complete responsibility for the positioning the sample tube. However, the adjustments indicated in Sample Center Device Adjustments: Positioning Responsibilities on page 46 facilitates alignment between the system and LAS.
Dimensions shown are in mm.
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48 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Sample Positioning and Adjustments
Point Of Reference (POR)Point Of Reference//Point in space is the intersection of the XY plane and the axis of the sample tube once positioned for system metering. It is used as the common reference for the system and Automation system. The design of the VITROS 4600 System accommodates the Clinical and Laboratory Standards Institute (CLSI) standards.
Figure 23: Point of Reference
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Sample Positioning and Adjustments
Figure 24: Point of Reference - Back of System
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50 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Sample Positioning and Adjustments
Figure 25: Point of Reference - Side View
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Sample Positioning and Adjustments
Sample Tube Height: Vertical Dimension for PORPosition of sample tube shown below is based on 100mm tube lengths. Dimensions are given to the bottom of the tube in alignment with the CLSI standards. Metering operations assume 100 mm tube height.
Figure 26: Sample Tube Position
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52 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
System Dimensions with AT Configuration
System Dimensions with AT ConfigurationThis section describes the overall size of the VITROS 4600 Chemistry System with AT (Automation) Accessories. See Figure 27 and Figure 28.
Figure 27: VITROS 4600 System with Seismic Anchors - Front View
Figure 28: VITROS 4600 System with Seismic Anchors - Side View
Figure 29 displays the optional heat rejection plenum that diverts hear from the system directly into the laboratorys ventilation system. If a customer requires a heat rejection plenum, OCD and the automation vendor should review any spatial conflicts. See Site Specifications for the VITROS 5,1 FS Chemistry System and the VITROS 4600 Chemistry System, J39897.
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Regulations and Safety Standards
Figure 29: VITROS 4600 System with Heat Rejection Plenum
Regulations and Safety StandardsThe VITROS 4600 Chemistry System is designed to meet Regulatory and Safety requirements for a worldwide market.
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54 Specification for Automation Interface Pub. No.: J39931ENVITROS 4600 Chemistry System Issued: 2011-01-10
Supported Containers
Section 4. Sample HandlingSupported Containers
All but the 10.25 diameter container measurements assume that the track is set up for the system to aspirate from 100mm tube lengths.
Minimum Fill Requirement
Containers that are not SupportedCups are not supported by remote sampling but they can be used for local (on-system) sampling.
Sample Quality RecommendationsThe sample automation system should allow for primary tube sampling.
If secondary aliquot tubes are used, they should minimize:
Sample contamination with microorganisms
Out-gassing of volatile sample constituents for any volatile assays
Long term sample degradation
Environmental Issues Sample tubes should remain uncapped for the minimum amount of time to maintain
sample quality.
Sample caps should be replaced on the sample container shortly after testing has been completed. This will help to ensure sample quality for any follow-up testing that may be required.
For installations in brightly lighted areas, opaque or amber shielding of the tubes or opaque or amber tubes will help maintain sample quality.
Installations with high particulate counts should have dust baffles positioned to protect open sample containers.
Tube Size Diameter x Length in mm Fluid Volume L
16 x 100 200 L plus test volume
16 x 75 200 L plus test volume
12-13 x 100 200 L plus test volume
12-13 x 75 200 L plus test volume
10.25 with varying lengths The tube must have a minimum fill of 33 mm below
the rim plus test volume. The tube must be supported so the top rim of the
tube is positioned at the same location as a 100 mm tube.
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Pub. No.: J39931EN Specification for Automation Interface 55Issued: 2011-01-10 VITROS 4600 Chemistry System
Introduction
Section 5. Guidelines for Laboratory Automation System Protocol Tests
Introduction
PurposeThese guidelines assist automation system personnel in verifying that the Automation Interface Specification between a Lab Automation System (LAS) and VITROS 4600 System has been implemented correctly. The guidelines suggested in this section do not represent a complete validation tool for the Lab Automation System supplier. Rather, they outline major areas of concern for basic,