A laboratory system for a laboratory automation system is presented. The laboratory system comprises a sample container carrier. The sample container carrier is configured to carry a laboratory sample container and comprises a removal detector. The removal detector is configured to interact with the laboratory sample container to detect a removal of the carried laboratory sample container from the sample container carrier. Furthermore, the laboratory system is configured to determine based on the detected removal that a before valid logic assignment of the sample container carrier to the carried laboratory sample container is invalid.

The present patent of invention relates to a reader device for biological samples used in the field of remote laboratory tests (TLR), for clinical diagnostic purposes, based on an optimized design constituted by a cowling (C) with inlet port (OE) and with switch (I); by a holding support (SS) containing a mirror (ES), two batteries (BT), two reading illumination arrays (BIL), operational status illumination arrays (BIS) and an elevator support (SE); by an elevator (EL); by an electronics board (PE) with energy loading circuit (PE-1), with supply circuit (PE-2), with processor (PE-3), with Bluetooth® device (PE-4) and with position sensor (PE-5); and by a base (BA) with software that reads various types of biological samples, the present invention providing the advantages of: ease of use, optimized operating flows, ease of training, modularity, compactness, reduced size, portability, lightness of weight, ergonomic design, used-friendliness, enhanced practically and low cost.

Provided are a specimen transport device, a specimen analysis system, a specimen pretreatment system, and a specimen transport method that can reduce human errors as compared with the related art. There are a plurality of magnetic bodies having different inductance characteristics, and a calculation unit calculates inductance characteristic values at a predetermined current value flowing through a magnetic pole detected by a current detection unit and specifies the type of the magnetic body having different inductance characteristics based on the obtained characteristic values to identify a holder.

There is described a method of operating a distribution system. The distribution system comprises a number of carriers wherein the carriers are adapted to carry one or more goods. A transport plane of the distribution system supports the carriers. A control device controls the drive means. During an initialization of the distribution system the control device pre-defines a pattern of safe points on the transport plane, wherein on the safe points a carrier can be placed. After the initialization of the distribution system the control device calculates partial routes for the carriers so that the end position of each partial route is either one of the safe points or has a free path to one of the safe points to be reachable in the next partial route.

Provided are a transport device and an analysis system in which a stability of transport at a time of restart is further enhanced while achieving cost reduction by a position-sensorless configuration. A transport device includes: a plurality of coils 25a, 25b configured to generate a thrust to transport a transport container 20; a drive circuit 50 configured to apply a voltage to each of the plurality of coils 25a, 25b; and a calculation unit 40 configured to estimate a position of the transport container 20 based on current information when voltage pulses 80, 81 are applied to the coils 25a, 25b. When a power supply of the device is activated, the calculation unit 40 applies a voltage pulse 80 in a positive direction and a voltage pulse 81 in a negative direction to the target coils 25a, 25b so as to detect the position of the transport container 20 from the current information of current flowing through the coils 25a, 25b.

The purpose of the present invention is to provide a highly reliable specimen carrier device with which it is possible to position a specimen holder in a specific place with high accuracy, thereby enabling the stable performance of a treatment. In order to achieve this purpose, the present invention provides a specimen carrier device that is equipped with: a specimen holder which retains a specimen container and which is equipped with a magnetic body; and a first positioning means which is disposed beneath a carrier surface and which conveys and stops the specimen holder by attracting and repelling the magnetic body, wherein a second positioning means for pressing the specimen holder or the specimen container is provided on the carrier surface.

One embodiment provides a method of controlling a payload temperature in in vitro diagnostics including: moving, using a track system, a plurality of carriers, along one or more paths between a plurality of testing stations, wherein the carrier is configured to hold one or more payloads, and limiting, using a temperature controlling device, temperature change of the one or more payloads, wherein each carrier is configured to hold one or more payloads and move the one or more payloads to one of the plurality of testing stations. Other aspects are described and claimed herein.

A modular in vitro diagnostics (IVD) vessel mover system providing redundant power management includes a plurality of modules which are configured to provide storage to one or more IVD samples. Each module comprising a power failover switch which is configured to receive internal power from an internal primary power source and transmit backup power to one or more of the plurality of modules.

An automatic analysis apparatus and an operating method for the automatic analysis apparatus. At least two magnetic separation units are introduced, each magnetic separation unit operating independently and being used for performing magnetic separation cleaning on a reaction solution in a reaction cup. Each magnetic separation unit may be used for any magnetic separation cleaning step in a one-step test project or a multi-step test project, thereby significantly increasing the test speed and the test throughput of the automatic analysis apparatus.

A system for transporting a sample in a clinical analysis system includes a sample container holding the sample, a ferromagnetic base connected to a bottom portion of the sample container, and a puck. The puck is used for transporting the sample container in the clinical analysis system. The puck comprises an embedded magnet for securing the sample container to the puck using the ferromagnetic base.