FlexLab™ for High Throughput Hardware Overview Online Training

Continue Button Continue Continue Continue Continue Untitled Scene Master Template HILS2218 | Effective Date: 29-Jul-2021 ? FlexLab™ for High Throughput Hardware Overview Online Training This course includes an overview of the hardware components on the FlexLab HT Automation System, and their functions. Identify and describe track components 1 Recognize module safety features 4 Distinguish between safety labels on the system 3 Identify and describe system modules 2 Welcome Welcome to the FlexLab for High Throughput – Hardware Overview Online Training. This course will cover the following four learning objectives. For navigation help, select the question mark button located in the lower right corner of each slide. ? Introduction Automation System Data Management Software Introduction The FlexLab HT is an integrated solution to manage orders and process sample tubes in the lab. The system is made up of two main components: the Data Management Software and the Automation System. The Data Management Software, or DMS, is a software for labs, designed for the management of data between Laboratory Information Systems, Analyzers and Automation Systems. The Automation System is a modular system designed to automate Pre-Analytical and Post-Analytical processing, sample handling, and processing in the clinical laboratory. The Automation System consolidates multiple Analytical instruments into a unified workstation by employing a common sample processing capability. ? Hardware Overview Track Pre-Analytical Post Analytical Analytical Select all 4 tabs before moving on to the next slide. Hardware Overview Before operating the FlexLab HT, it is important to be familiar with the hardware components of the Automation System. The system consists of the Track and the Automation Modules, including Pre-Analytical and Post-Analytical Modules, as well as the connected Analyzer modules. System configuration allows multiple connection instances of the same Automation Modules and Analyzers. Select the tabs to learn about each area of the hardware, before continuing on to the next slide. ? Safety Labels Safety labels are affixed to the Automation System to alert the User to safety or functional considerations. Hover over each label on the left to learn more. Safety covers must remain in place during normal operations. If removal is necessary, refer to the Operators Manual. Safety Labels Hover over each safety label to learn more. Identifies where the emergency stop button is located. Use caution when opening the Input Output Module safety shields to ensure they are fully open. Do not place objects on the top surface. No access: Identifies an area where Users can be exposed to moving parts. Do not insert the hands in this area. This symbol indicates that the area access can cause risks to persons wearing a pacemaker. Any person with a pacemaker must keep a safety distance of at least 20 cm from the Module robot axes. Identifies an area where the access is prohibited to Users. The access is allowed to FSE only. Identifies an activity or area where the User may be exposed to hot surfaces (> 65°C/149°F). Identifies an activity or area where Users may be exposed to potentially infectious material. Identifies an area containing cutting or stinging parts. Follow manufacturer instructions written in this guide when performing maintenance. Identifies an activity that may present a safety-related hazard and advises the User to consult the associated caution or warning instructions provided. Identifies an area where Users can be exposed to moving parts. Be careful around these parts when performing diagnostics and maintenance operations with safety shield and covers removed. Identifies the presence of electrical hazards. Identifies that hazardous voltage is present behind the protective cover. ? Course Review Congratulations. You have completed the FlexLab™ HT Hardware Overview course. Select the numbered buttons below to review the material before proceeding to the final assessment. Recognize module safety features Distinguish between safety labels on the system Identify and describe system modules Identify and describe track components 1 1 2 2 2 3 3 3 4 4 4 Course Review Recognize module safety features Safety Shield Cover Locking System Emergency Stop Button Lamp Assembly Distinguish between safety labels on the system Moving Parts Hazard Hazard Biohazard Burn Hazard Cut Hazard Electrical Hazard Do Not Insert Hands No User Access No Pacemaker IOM Safety Shield Caution Emergency Stop Identify and describe system modules Pre-Analytical Modules IOM v mIOM Vision Systems Tube Identification Module (TIM) Mosaico Vision System (mVS) Barcode Reader Rack Input Module (RIM) Bulk Input Module (BIM) Centrifuge Module (CM) Decapper Module (DCM) Sample Integrity Module (SIM) Sample Volume Detection Module (SVD) Universal Shaker Module Post-Analytical Modules Output Modules Rack Output (ROM) Bulk Output (BOM) Multifunctional Output (MOM) Aliquoter Module (ALQ) Sealer Module (SM) Desealer Module (DSM) Recapper Module Storage and Retrieval Module High Volume Storage Connected Analyzers Pick and Place Point of Space Identify and describe track components Sample Carrier Secondary Lane Divert Gate & Stop Gate NSD & Active Track Return Track Bypass Modules U-Turn T-Turn Over Underpass Wide Belt Carrier Buffer Disclaimer Please note that the learning material is for training purposes only. For the proper use of the software or hardware, please always use the Operator Manual or Instructions for Use (hereinafter collectively “Operator Manual”) issued by Siemens Healthineers. This material is to be used as training material only and shall by no means substitute the Operator Manual. Any material used in this training will not be updated on a regular basis and does not necessarily reflect the latest version of the software and hardware available at the time of the training. The Operator Manual shall be used as your main reference, in particular for relevant safety information like warnings and cautions. Please note: Some functions shown in this material are optional and might not be part of your system. Certain products, product related claims or functionalities (hereinafter collectively “Functionality”) may not (yet) be commercially available in your country. Due to regulatory requirements, the future availability of said Functionalities in any specific country is not guaranteed. Please contact your local Siemens Healthineers sales representative for the most current information. The reproduction, transmission or distribution of this training or its contents is not permitted without express written authority. Offenders will be liable for damages. All names and data of patients, parameters and configuration dependent designations are fictional and examples only. All rights, including rights created by patent grant or registration of a utility model or design, are reserved. © Siemens Healthcare GmbH 2022 Siemens Healthineers Headquarters\Siemens Healthcare GmbH\Henkestr. 127\ 91052 Erlangen, Germany\Telephone: +49 9131 84-0\siemens-healthineers.com ? Disclaimer Assessment Start ? This assessment will test your retention of the presented content. A passing score of 80% or higher is required to complete the course and earn your certificate . Assessment questions must be answered completely to receive full credit. Partial credit will not be given for assessment questions that require multiple answers. You may repeat the assessment as many times as needed. Assessment Select the best answer. ? Question 1 of 8 Which module includes the touch screen monitor? Storage and Retrieval Module IOM/mIOM Bulk Input Module Track Multiple Choice Incorrect This module does not include a monitor. Incorrect The track does not include a monitor. Incorrect Correct This module does not include a monitor. Select the best answer. ? Question 2 of 8 Which module covers the sample tube with foil? Sealer Module Aliquoter Module Recapper Module Desealer Module Multiple Choice Incorrect This module puts a cap on secondary tubes. Incorrect This module REMOVES the foil from the tube. Incorrect This module does not cover the tube. Correct Select the designated box where the Robot Safety Cover lock/unlock knob is located, then select Submit below. Question 3 of 8 Identify where the Robot Safety Cover lock/unlock knob is located on the centrifuge. Hotspot Incorrect This is where the power switch is located, behind the door. Incorrect This is the centrifuge emergency stop button. Incorrect This is the cover handle. Correct Incorrect You did not select a designated area. ? Select two (2) answers. Question 4 of 8 What is the function of the sample carrier? Detect the sample volume in the tube. Scan the barcode on the tube. Carry the sample tube to the designated locations. Provide tracking for the tube throughout the system using a unique RFID tag. Multiple Answer Incorrect One or more answers are incorrect. Correct Select the designated box where the IOM illuminates to show lane status, then select Submit below. Question 5 of 8 Which area on the Input/Output Module illuminates to show lane status? Hotspot Incorrect This is the touchscreen monitor. Incorrect This is the worktable. Correct Incorrect You did not select a designated area. Select the best answer. ? Question 6 of 8 Which of the following functions samples a tube directly from the track? Pick and Place Point of Space Multiple Choice Incorrect Correct This removes the tube from the track to sample. Select the applicable image. ? Which of the following safety labels identifies an area where users may be exposed to potentially hazardous material? Question 7 of 8 Pick One Incorrect This label indicates an electrical hazard. Incorrect This label indicates an area with cutting or stinging parts. Correct Select the applicable image. ? Which of the following safety labels identifies an area where the access is prohibited to users? Question 8 of 8 Pick One Incorrect This label indicates an area where users are exposed to moving parts. Incorrect This label indicates an IOM Safety Shield. Correct Assessment Results YOUR SCORE: PASSING SCORE: Review Retry Retry Continue Continue Continue %Results.ScorePercent%% %Results.PassPercent%% ? Assessment Results You did not pass the course. Take time to review the assessment then select Retry to continue. Congratulations. You passed the course.. Exit To access your Certificate of Completion, select the Launch button drop down on the course overview page. You can also access the certificate from your PEPconnect transcript. ? You have completed the FlexLab™ for High Throughput Hardware Overview Online Training. Completion Navigation Help Select the icon above to open the table of contents. Click Next to continue. Next Welcome Slide The timeline displays the slide progression. Slide the orange bar backwards to rewind the timeline. Click Next to continue. Next Tmeline Select the CC icon to display closed captioning (subtitles). Click Next to continue. Next Caption Icon Select the buttons to learn more about a topic. Be sure to review all topics before navigating to the next slide. Click Next to continue. Next Tab Arrow Slide Select the X to close the pop-up. Click Next to continue. Next Layer Slide Some images may have a magnifier icon. Select the image to see an enlarged view. Select it again to return to the normal view. Click Next to continue. Next Zoom Slide Some images have a magnifier icon in the bottom-left corner. Select these image to see an enlarged view of the image. Select the image again to return to the normal view. Select Submit to record your response. Click the X in the upper right corner to exit the navigation help. Assessment Slide Track ? Hardware Overview Sample Carriers Contained within each carrier is a unique RFID tag Tubes are tracked throughout the system using the sample carriers RFID Tag Sample tube with barcode Select the markers to learn more. Sample Carriers Sample tubes are tracked through the system using sample carriers. When the sample tube barcode is read by a vision system, it reads the barcode and then associates that tube with that specific carrier, based off of its Radio Frequency Identification, or RFID, tag. From that point forward, the carrier is tracked, and not the tube, unless it leaves the track. Select next to continue through the rest of the track section, before returning to the main hardware overview screen. ? Hardware Overview Track Sample Input Sealer Centrifuge Decapper Analyzer Storage Storage Sample Output/Sorting Track The Track controls the motion of sample tubes from the Input Modules to the Pre-Analytical Modules, if applicable, then to the Analyzers, Subsequently, the tubes move to Post-Analytical Modules, if applicable, and finally either to storage or to the Output Modules. A main lane is used to move the tube carriers containing sample tubes to and from the Automation Modules and Analyzers. When a tube carrier approaches an Automation Module or Analyzer, the tube carrier may be diverted to a secondary lane for sample preparation or processing. The tube carrier is then returned to the main lane. ? Hardware Overview Secondary Lane Diversion Non-Stop Divert Gate (NSD) Sample carriers are read by their RFID tags, then move past the carrier sensor and tube presence sensor If required, the carriers are diverted into the secondary buffer by the NSD Gate Active Track Return forces carriers back to the track without stopping. NSD Gate Active Track Return Secondary Lane Diversion Sample carriers are diverted to a secondary lane by means of the non-stop divert gate, and returned to the track by the active track return. ? Hardware Overview Track Bypass Modules U-Turn U-Turn Internal U-Turn Internal U-Turn T-Turn T-Turn T-Turn The Track T-Module allows tubes to take a track spur for their necessary routing. Tubes can bypass that section of the track by taking the bypass lane. Over Underpass Over Underpass Note: no audio included Track Bypass Modules The Track is composed of multiple track segments, including bypass modules, to facilitate routing to the necessary modules. Please note that the videos shown have black belts, instead of the grey belts of the FlexLab HT. Select the tabs to learn more about each track bypass module. Over Underpass Over Underpass The Over Underpass Module (OUM) allows carriers and tubes to pass from one track to the other one (or to the same). Any user can request a tube from any location on either track to send it over to the other. Over Underpass Internal U-Turn The Internal U-Turn Module provides a short way for carriers to reach their destination on the Automation System by diverting them to a U-shaped lane connecting a portion of track with opposite flow direction. It is designed to optimize the routing of carriers that needs to go straight along the main lane, avoiding to be diverted. The Track U-Turn Module allows tubes to move over to the opposite side of the track to shorten the pathway. It also allows tubes to circle a track area while waiting for their next routing. U-Turn Note: no audio included ? Hardware Overview Wide Belt Carrier Buffer Wide Belt Carrier Buffer (WBB) Used to store carriers to prevent need for them to run on the track (up to 700) Used for three different functions: Empty Carriers Specific Instrument Parking (Overload) Temporary parking for the High Volume Storage during downtime Select the X Wide Belt Buffer The Wide Belt Carrier Buffer Module is a sample carrier collector, that provides the capability to relieve the track workload. Select the X in the upper right hand corner to return to the hardware overview screen. Pre-Analytical Modules ? Hardware Overview Input/Output Module mIOM mIOM IOM IOM IOM IOM Door 15 x 48-tube-position rack lanes 5 x 12-tube-position rack lanes IOM Robot loads/unloads sample tubes handles capped and uncapped sample tubes LED Indicator Bar over the IOM worktable LED indicator lights that illuminate to show lane status displays icons corresponding to the lane configuration push the LED button to unload a sample rack Robot Safety Cover For robot motion hazards, all movement areas are protected. Do not lift the cover during operation. Emergency Stop Button Cover Locking System Touch Screen Monitor user can navigate through the IUI by touch screen or mouse Lamp Assembly remains lit when safety shield is closed Select the markers to learn more. Input/Output Module The Input/Output Module (IOM) provides a single point of sample tube loading and unloading, identification of barcode and tube type, sample tracking, and the user interface. The touch screen monitor allows the User to interface with the Automation System, selecting navigation and function keys, menu items and areas of text. The Input/Output Module has 20 lanes total. 15 lanes hold 48-tube-position racks and 5 lanes hold 12-tube-position racks, whereas the m Input/Output Module only has 16 lanes, that all hold 48-tube-position racks. The User can configure each lane for the appropriate type of sample tubes to be loaded from (or unloaded into) the racks. Select the tabs to compare the two input/output modules, then select next to continue through the rest of the pre-analytical section, before returning to the main hardware overview screen. mIOM Emergency Stop Button Touch Screen Monitor user can navigate through the IUI by touch screen or mouse LED Indicator Bar over the mIOM worktable LED indicator lights that illuminate to show lane status displays icons corresponding to the lane configuration 15 x 48-tube-position rack lanes Robot Safety Cover For robot motion hazards, all movement areas are protected. DO NOT reach underneath covers! ? Hardware Overview Vision Systems Mosaico Vision System Mosaico Vision System Barcode Reader Barcode Reader Tube Identification Module Tube Identification Module Tube Identification Module Tube Identification Module (TIM) Located at IOM’s, BIM’s, and RIM’s only Functions: Reads the Barcode label Determines sample type (cap color) Cap status Compares LIS data for test request vs sample type Vision Systems A vision system is located at all entry points to the track, to ensure the tube is routed to the correct location. Sample tubes are tracked throughout the automation system by either a tube identification module, mosaico vision system, or barcode reader. Select the tabs to learn more about the different vision systems. Barcode Reader Located at Pick and Place Modules Functions: Reconfirm the Barcode label after the tube has been physically removed from the track Barcode Reader Mosaico Vision System Mosaico Vision System (mVS) Located at mIOM’s only Functions: Reads the Barcode label Determines sample type (cap color) Cap status Compares LIS data for test request vs sample type ? Hardware Overview Rack Input Module Rack Input Module (RIM) Walk away capacity of 6 48-tube-position racks No tube restrictions Loading Rack Position Emergency Stop Button Unloading Rack Position RIM Robot Lamp Assembly remains lit when safety shield is closed Rack Input Module The Rack Input Module provides a point of sample tube input, barcode tube identification and tube type identification. The Rack Input Module provides a walk away capacity up to 6 48-tube-position racks. ? Hardware Overview Bulk Input Module Bulk Input Module (BIM) Bulk sample tube loading (without need to load tubes into sample racks) Single specimen sample processing type Lid Lid Button Bulk Input Robot Bulk Input Module The Bulk Input Module provides a point of sample tube input, barcode tube identification and tube type identification. The Bulk Input Module allows direct loading on the track of capped sample tubes without using racks, and provides a walkaway capacity of approximately 700 capped sample tubes. ? Hardware Overview Centrifuge Module Centrifuge Module (CM) Balance tubes based on their weight Robot has times settings to complete batches of tubes requiring centrifugation Follow tube manufacture recommendations for spin parameters Lock/Unlock knob Safety cover locking system Power Button Cover Centrifuge Bucket Inserts Centrifuge Module The Centrifuge Module automates centrifugation processing for sample separation. The Centrifuge Module includes loading and unloading areas and the refrigerated centrifuge unit. ? Hardware Overview Decapper Module Decapper Module (DCM) Removal of screw-type and hema-guard stopper closures Waste bin to collect up to 2000 tube caps in its waste Decapper Head Decapper Waste Container Safety Covers DO NOT remove any covers unless instructed to do so in maintenance activities or troubleshooting. Decapper Module The Decapper Module automates removal of both screw and pressure plastic closures from sample tubes. The cap is removed and discarded into the Decapper waste container. ? Hardware Overview Sample Volume Detection Module Sample Volume Detection Module (SVD) Functions: Identifies tube types Measures the serum/plasma volume in the sample tube Detects cap presence Camera Tunnel Sample Volume Detection Module The Sample Volume Detection Module allows to: identify the tube type; measure the serum/plasma volume in the sample tube; and detect the cap presence. ? Hardware Overview Sample Integrity Module Sample Integrity Module (SIM) Used to capture images of sample tubes Functions: Evaluates spun tubes for their HIL characteristics Determines serum/plasma volume (only on centrifuged tubes, not Hema) This is a new generation of the Sample Volume Detection Module. Sample Integrity Module The Sample Integrity Module is a pre-analytical module which can be used to: detect the volume of serum/plasma, detect the upper and lower levels of serum/plasma, as well as estimate the serum indexes. ? Hardware Overview Universal Shaker Module Universal Shaker Module Used to mix sample tubes prior to analysis Tied to a specific analyzer Shaker Grippers (4) Shaker Device Select the X Universal Shaker Module The Universal Shaker Module automates the shaking process for samples which need to be inverted before analysis. Select the X in the upper right hand corner to return to the hardware overview screen. Post-Analytical Modules ? Hardware Overview Output Modules Select the markers to learn more. Rack Output Module 400 Rack Output Module 400 Bulk Output Module Bulk Output Module Rack Output Module Rack Output Module Rack Output Module Rack Output Module (ROM) Unloads sample tubes into racks by point of sample tube unloading, when tubes are completed or need to be sorted Provides a walk away capacity of up to 6x48-tube-position racks Loading Rack Position Unloading Rack Position RIM Robot Lamp Assembly remains lit when safety shield is closed Emergency Stop Button Multifunctional Output Module Multifunctional Output Module Output Modules There are a few types of output modules, that offload tubes from the track. Select the tabs to learn more about each module. Select next to continue through the rest of the post-analytical section, before returning to the main hardware overview screen. Multifunctional Output Module Multifunctional Output Module (MOM) Tubes can individually be offloaded from the track into a disposal receptacle Tubes can either be capped or uncapped Bulk Output Module (BOM) Tubes can individually be offloaded from the track into a collection receptacle Tubes MUST be capped Bulk Output Module Rack Output Module 400 Rack Output Module 400 (ROM400) When the HVS has a problem and the tubes need to be physically offloaded from the track to maintain carrier reserves When the HVS is set online, these offloaded racks can be manually loaded onto shelves for immediate use When tubes in general need to be offloaded from the track ? Hardware Overview Aliquoter Module Waste Door Aliquoter Module (ALQ) Creates up to 4 secondary aliquot samples from a primary tube Module prints barcode labels onto the secondary aliquot tubes as configured in its settings Aliquoting Area Secondary sample tubes preparation area Pipettor Aliquoter Module The Aliquoter Module generates secondary sample tubes from the presented sample tubes. Up to 4 secondary sample tubes can be generated at a time from a presented primary tube. If more than 4 secondary tubes need to be generated from the same primary sample tube, the primary sample tube is routed to the Aliquoter Module more than once until all secondary sample tubes are generated. The primary sample is aspirated and dispensed in the secondary sample tubes based on configurable volumes and parameters. The Automation System routes to the Aliquoter Module the primary sample tubes to be aliquoted and empty tube carriers in which the secondary sample tubes produced by the Aliquoter Module are placed. ? Hardware Overview Pressure Recapper Module Pressure Recapper Module Secondary sample tubes produced by the Aliquoter Module are recapped for preservation Pressure Recapper Module Head Caps Bin Recapper Module The Recapper Module allows automatic positioning of plastic screw caps on secondary sample tubes produced by the Aliquoter Module. Once the secondary sample tubes are recapped, they are moved to the Storage and Retrieval Module (when available) or Input/Output Module into an appropriate output or sorting rack. ? Hardware Overview Sealer Module Sealer Module (SM) Melts onto the top of a tube an aluminum foil seal to preserve the sample Required prior to storage into the High Volume Storage (HVS) Foil cartridge has 19000 seals and requires periodic replacement Sealer Reel Heater Crimper Sealer Module The Sealer Module allows automatic sealing of plastic sample tubes after analytical processing. At the Sealer Module, the gripper holds the sample tube while it is sealed with aluminum foil from the Sealer coil. Individual foil seals are cut for each sample tube and heat-sealed to the plastic sample tube. ? Hardware Overview Desealer Module Desealer Module (DSM) Tubes are automatically desealed and routed back to analyzers When reanalysis is required on a tube If, time out period is not exceeded to route without manual inspection Desealer Head Desealer Waste Container Desealer Module The Desealer module automates removal of aluminum seals from sample tubes. The aluminum seal (foil) is removed and discarded into the Desealer waste container. ? Hardware Overview Storage and Retrieval Module Storage and Retrieval Module Tubes are stored in temperature controlled and protected environment for a configured period of time When expired, they are automatically disposed Tubes requiring re-run are automatically retrieved through LIS message and route back to the track Available in two configurations of different size: 20 floors – 16 x 48-tube-position racks on each floor 12 floors – 16 x 48-tube-position racks on each floor Automatic Refrigerator Robot Cover Cabinet Lock/Unlock Cover Knob Storage and Retrieval Module The Storage and Retrieval Module stores sample tubes from the Automation System in a temperature controlled and protected environment. The Storage and Retrieval Module consists of a storage worktable and a refrigerator unit. The refrigerator unit is available in two configurations of different size. When stored, a sample tube can be retrieved based on the Host LIS, middleware, or User request. In most cases, the rack containing the requested sample tube is retrieved from the Storage worktable and the tube is unloaded to the tube carrier at the Loading position on Track. After a pre-defined, configurable time interval, the sample tubes are discarded into the Waste. ? Hardware Overview High Volume Storage High Volume Storage When all necessary routing is complete on sample tubes, they are sent to the HVS Tubes are stored for a configured period of time When expired, they are automatically disposed Tubes requiring re-run are automatically retrieved through LIS message and route back to the track Select the X High Volume Storage Module The High Volume Storage Module stores high volumes of sample tubes from the Automation System in a temperature controlled and protected environment capable of accommodating a high volume of sample tubes in 400-position racks. The Module allows you to: retrieve sample tubes from the refrigerated room in order to perform further analysis, and automatically dispose sample tubes into the waste bin when a specific timeout is over. Select the X in the upper right hand corner to return to the hardware overview screen. Analytical Modules ? Hardware Overview Connected Analyzers The “Pick and Place” Analyzers need to transport the tubes from the carrier to the analyzer and vice versa. Point of Space Point of Space Pick and Place Pick and Place Pick and Place EX: Atellica Solution, ADVIA 2120i, IMMULITE Select the X Connected Analyzers The Interface Modules allow the connection of different Analyzers in order to meet the needs of Laboratory in specific fields such as Clinical Chemistry, Immunology, Coagulation, or Hematology. Interface Modules with the Analyzers enable the Automation System to be connected with both Analyzer types “Point of Space” and “Pick and Place”. Select the tabs to compare both analyzer types, and view short videos. Select the X in the upper right hand corner to return to the hardware overview screen. The “Point of Space” Analyzers are able to sample the tubes directly from the carrier on the track. Point of Space EX: CS-5100, Dimension Vista, Centaur XPT Question Bank 1 HOOD05162003284283 | Effective Date: 8-Jul-2022 1.1 Welcome 1.2 Introduction 1.3 Hardware Overview 3 Track 3.1 Sample Carriers 3.2 Track 3.4 Track Bypass Modules 3.3 Secondary Lane Diversion 3.5 Wide Belt Buffer 4 Pre-Analytical Modules 4.1 Input/Output Module 4.2 Vision Systems 4.3 Rack Input Module 4.4 Bulk Input Module 4.5 Centrifuge Module 4.6 Decapper Module 4.8 Sample Integrity Module 4.7 Sample Volume Detection Module 4.9 Universal Shaker Module 5 Post-Analytical Modules 5.1 Output Modules 5.2 Aliquoter Module 5.4 Sealer Module 5.5 Desealer Module 5.3 Recapper Module 5.6 Storage and Retrieval Module 5.7 High Volume Storage Module 6 Analytical Modules 6.1 Connected Analyzers 1.4 Safety Labels 1.5 Course Review 1.6 Disclaimer 1.7 Assessment