A control method and a control apparatus for a paraffin dispenser in an embedder, a paraffin dispenser and an embedder are provided. The control method includes: collecting information of a current mold so as to acquire an identification of the current mold; determining whether the identification of the current mold is correct; and controlling the paraffin dispenser to pour paraffin into the current mold, when it is determined that the identification of the current mold is correct.

The present invention relates to devices and methods for measuring the quantity of multiple analytes in a sample. The device is designed such that each of the analyte sensing elements is configured to measure the quantity of a predetermined analyte and where the machine executable instructions are configured to select the proper analyte sensing element corresponding to the analyte to be measured.

Electrodes are integrated into a container design for fluid level detection in the container. The electrodes have a conductive surface, and an adhesive backing may be attached opposite the conductive surface to secure the electrodes to the container. Electrical contact to each conducting surface is made to a detection circuit to obtain a fluid level. A radio-frequency identification (RFID) tag may be incorporated onto the container along with the level detection circuit to record the container history, such as last used time event, net evaporation during storage, re-suspension performance after storage, number of agitation cycles, instrument serial number, date opened/accessed, and other desirable information.

A test apparatus and control method thereof are disclosed, which relate to a technology for providing an in-vitro diagnostic apparatus for enabling a user to change time information used in the system, and displaying the changed time information to use the time information according to local time of a desired country. Also, the present disclosure is directed to providing a test apparatus for determining whether the validity date of test medium has expired to prevent use of expired test medium and to analyze a test object through available test medium, and a method for controlling the test apparatus. The test apparatus of analyzing a test object included in test medium includes a Real Time Clock (RTC) portion configured to provide current time, a user interface configured to receive a time offset command for changing the current time and displaying the changed current time, a first offset manager configured to reflect the time offset command to the current time provided from the RTC portion to calculate time to be displayed, a second offset manager configured to decide reference time to be used to determine whether validity date of the test medium has expired, based on the current time provided from the RTC portion, a validity date acquirer configured to acquire validity date information of the test medium, and a controller configured to determine whether validity date of the test medium has expired, based on the reference time and the validity date information of the test medium.

A sample analyzer and a method for obtaining reagent information are disclosed, wherein the sample analyzer analyzes a sample by using a reagent contained in a reagent container, comprising a first reagent container holder configured to hold a first reagent container containing a first reagent, a first electronic tag, on which a reagent information regarding the first reagent is recorded, attached to the first reagent container; a second reagent container holder configured to hold a second reagent container containing a second reagent, a second electronic tag, on which a reagent information regarding the second reagent is recorded, attached to the second reagent container; an antenna that is arranged between the first reagent container holder and the second reagent container holder, and is configured to receive a radio wave from each of the first and second electronic tags; and a reagent information obtainer unit configured to obtain the reagent information recorded on the first electronic tag based on a radio wave received from the first electronic tag, and to obtain the reagent information recorded on the second electronic tag based on a radio wave received from the second electronic tag.

There is provided a storage apparatus including a storage case which stores a specimen container accommodating a specimen inside and having a wireless tag recorded with identification information on a side surface, and an antenna surrounding the periphery of the specimen container stored in the storage case.

A method for the handling of melt samples in a steelworks laboratory may involve processing and/or analyzing a melt sample in at least one first treatment apparatus and subsequently transporting the melt sample via at least one first transport path to at least one second treatment apparatus where the melt sample is subjected to further processing and/or analysis. As part of the transporting step, the method may involve clamping the melt sample on a sample carrier so that the sample carrier is transported together with the clamped-in melt sample between the treatment apparatuses and is positioned in the treatment apparatuses for processing and/or analysis.

A memory device is provided. The memory device includes a memory array including a plurality of sections, and an inter-hamming difference analyzer. Each section includes a plurality of bits, and the numbers of the bits of the plurality of sections are the same. The inter-hamming difference analyzer is configured to obtain contents of the plurality of sections operating in different operating conditions, to obtain a plurality of inter-hamming differences of the contents, and to provide a maximum inter-hamming difference and a minimum inter-hamming difference among the inter-hamming differences of the plurality of sections. The inter-hamming difference represents the number of unlike bits between the content of one section corresponding to a first operating condition and the content of another section corresponding to a second operating condition that is different from the first operating condition.

Embodiments disclosed herein are directed to multi-test assay systems for analyzing biological material and methods of using such multi-test assay systems. For example, the multi-test assay system can detect or identify one or more biological markers representative of or corresponding to an illness or disease.

Embodiments disclosed herein are directed to multi-test assay systems for analyzing biological material and methods of using such multi-test assay systems. For example, the multi-test assay system can detect or identify one or more biological markers representative of or corresponding to an illness or disease.