High-performance liquid chromatograph i-Series Plus

ultra high-performance liquidprocessfor impurities analysis

Overview
The i-Series Method Transfer System (MT system) enables both conventional HPLC analysis and rapid UHPLC analysis by providing high compatibility with existing LC systems and supporting high-speed methods. It delivers outstanding reproducibility between various LC systems with different system delay volumes, simplifying method transfer between instruments. The system allows migration between UHPLC and HPLC using a single integrated system and is based on the i-Series platform to maximize performance and reliability for method migration and transfer.

Key features

• Dual flow lines: A single integrated system provides two flow lines with UHPLC and HPLC delay volumes to simplify migrating methods between HPLC and UHPLC and to support both conventional and high-speed analyses.
• ACTO function (Analytical Condition Transfer and Optimization): Incorporated in LabSolutions™, ACTO transfers injection timings matched to differences in system volumes between instruments without editing concentration gradient programs in existing methods.
• Seamless method transfer: Transfer methods with single-button operation via the ACTO function to streamline method transfer processes.
• User-friendly operability: Designed on the i-Series platform with core technologies that provide a solid foundation for reliable, easy-to-use analysis workflows.
• Applications in pharmaceutical development: Enables process synthesis screening analysis in the UHPLC flow line and impurity content identification in the HPLC flow line.

Downloads
Brochure available in PDF format (PDF / 1.28MB).

Technical characteristics / specifications

• Series / model family: i-Series
• Dual flow-line architecture supporting both UHPLC and HPLC delay volumes
• ACTO function for automated transfer and optimization of analytical conditions across systems
• Integration with LabSolutions™ software for method transfer and timing adjustment
• Single-button operation for method transfer
• Designed for reproducibility between LC systems with differing system delay volumes
• Intended applications: pharmaceutical development (process synthesis screening, impurity identification)