A minimum peak is determined from analysis results, a correction wavelength at which an S/N ratio of the minimum peak is greatest is determined, and the determined correction wavelength is used to execute correction of the minimum peak. A plurality of detector output value correction method are registered in a processor, correction method is selected from default correction method or from among a plurality of preset correction methods according to an object to perform correction.

A minimum peak is determined from analysis results, a correction wavelength at which an S/N ratio of the minimum peak is greatest is determined, and the determined correction wavelength is used to execute correction of the minimum peak. A plurality of detector output value correction method are registered in a processor, correction method is selected from default correction method or from among a plurality of preset correction methods according to an object to perform correction.

A control method for an automatic analyzer that can improve robustness, throughput, and measurement accuracy. The automatic analyzer includes a sample loop connected between two sample ports of a plurality of sample ports of a switch valve. The method includes the steps of: adjusting a drive parameter of the syringe corresponding to a viscosity of the sample acquired in advance; switching the switch valve to a first state in which the sipper and the syringe contact with each other without through the sample loop; driving the syringe based on the drive parameter to draw and introduce the sample through the sipper; switching the switch valve to a second state in which the syringe and the sample loop conduct with each other; and driving the syringe based on the drive parameter to introduce the sample into the sample loop.

Certain embodiments described herein are directed to injector inserts and injector assemblies. In some examples, an injector insert that includes an inlet comprising a substantially inert metal is described. In other examples, an injector that includes a major amount of a substantially inert metal in a fluid flow path is disclosed. Devices and systems using the injectors inserts and injectors are also described.

Certain embodiments described herein are directed to injector inserts and injector assemblies. In some examples, an injector insert that includes an inlet comprising a substantially inert metal is described. In other examples, an injector that includes a major amount of a substantially inert metal in a fluid flow path is disclosed. Devices and systems using the injectors inserts and injectors are also described.

A method and apparatus for enabling larger injection volumes and for reducing extra column effects in chromatographic separations using focusing pre-columns placed upstream of the analytical, or preparative, column with applications in any chromatographic system where the requirement is that the focusing pre-column, placed upstream of the analytical column, allows larger injection volumes to be utilized and, by enabling efficient focusing of solutes onto the analytical column, results in a significant reduction of band broadening due to extra-column effects which act upstream of the analytical column.

A method and apparatus for enabling larger injection volumes and for reducing extra column effects in chromatographic separations using focusing pre-columns placed upstream of the analytical, or preparative, column with applications in any chromatographic system where the requirement is that the focusing pre-column, placed upstream of the analytical column, allows larger injection volumes to be utilized and, by enabling efficient focusing of solutes onto the analytical column, results in a significant reduction of band broadening due to extra-column effects which act upstream of the analytical column.

In order to, in a chromatograph sampler, regulate the pressure of a sample fluid filled in a constant volume tube to be as constant as possible and ensure the reproducibility of measurement, the chromatograph sampler is configured to provide a bypass line between a sample introduction line and a sample discharge line in parallel with the constant volume tube, and when filling the sample fluid in the constant volume tube, flow the sample fluid also through the bypass line in parallel.

In order to, in a chromatograph sampler, regulate the pressure of a sample fluid filled in a constant volume tube to be as constant as possible and ensure the reproducibility of measurement, the chromatograph sampler is configured to provide a bypass line between a sample introduction line and a sample discharge line in parallel with the constant volume tube, and when filling the sample fluid in the constant volume tube, flow the sample fluid also through the bypass line in parallel.

A device for a gas chromatograph (GC) system includes an injector connected to an inlet gas line and a conduit assembly. The inlet gas line is configured to pressurize an input end of a column and to deliver a split or purge flow. The conduit assembly includes a conduit surrounding the input end of the analytical column and coupled to a carrier gas line and a controller. The inlet gas line and the carrier gas line connect to a common gas source. The controller, connected to the conduit, has a first mode delivering a flow of carrier gas which is less than the column flow during an injection period to effect a sample transfer to the column and a second mode delivering a flow of carrier gas greater than the column flow following an injection period to prevent the split or purge flow from entering the column.