Product Description
Based on the most often sold quaternary HPLC system new levels of performance are brought to you. A pressure range of up to 600 bar with a flow rate up to 5 mL/min allows the use of almost any column – conventional, sub-2 µm-particle or superficially porous columns. A UV, fluorescence or ELSD detector provides the data rate required for high resolution separations or fast analyses to give you highest confidence in your analytical results. And most important, with full backwards compatibility for your established methods. Achieve better detection performance, higher resolutions, faster separations than ever before on a quaternary LC system – at an HPLC price.
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- A maximum pressure of 600 bar to utilize smaller particle size columns for higher resolution and faster separations.
- Quaternary low pressure mixing pump design for binary, ternary or quaternary gradients. Allows easy solvent change for variable applications.
- Unprecedented levels of DAD-performance for best and unambiguous analytical results.
- Easy, fast and secure transfer of methods from HPLC to sub-2-micron columns.
- Full backwards compatibility for existing methods.
- HPLC price – RRLC performance.
- A wide flow range up to 10 mL/min (at 200 bar) perfectly supports standard up to semi-preparative applications.
- Upgradeability and expandability with the complete range of Agilent 1260 Infinity and 1290 Infinity LC modules.
- Supported by all Agilent chromatographic data systems and by the Agilent Instrument Control Framework (ICF) or emulation mode by 3rd party software packages.
- Agilent Lab Advisor Software helps you manage your lab for best chromatographic quality with intuitive diagnostic and monitor capabilities and alert functions to notify you.
- Ordering Details
- Software and Informatics
Agilent 1260 Infinity Quaternary LC System – Selected System Specifications | |
Pump principle | Low pressure quaternary mixing, integrated high performance degassing unit |
Flow rate range | 0.05 – 5 mL/min at 600 bar 5 – 10 mL/min at 200 bar |
Maximum pressure | 600 bar |
Injection principle | Flow through design, no overfill (drawn = injected volume). Vial-only autosampler and vial and micro-titer plate autosampler available. |
Injection volumes | 0.1 – 100 µL, variable in 0.1 µL steps, higher injection volumes optionally available |
Column dimensions | Length: up to 300 mm, ID: 0.05 – 8 mm |
Temperature range | 10 °C below ambient – 80 °C With optional 1290 Infinity Thermostatted Column Compartment up to 100 °C |
Temperature stability | < ± 0.15 °C With optional 1290 Infinity Thermostatted Column Compartment < ± 0.05 °C |
Detection data rate | 80 Hz for UV, 74 Hz for fluorescence, 60 Hz for evaporative light scattering detection, higher data rates available with 1290 Infinity detectors |
UV noise level | As low as 0.6 uAU/cm (1260 Infinity DAD, 60 mm cell) |
Maintenance and system test | Front access to all maintenance parts Maintenance instructions through multimedia CD-ROM Time for full system test (OQ/PV) < 4 hours |
Standard GLP features | Early maintenance feedback-EMF (tracks lamp burn time, usage, number of injections with limits and feedback messages) |
Extended GLP features (for certain systems, refer to specifications of individual modules) |
Data Recovery Card (DRC) for data security (prevents data losses in case of communication breakdowns – depends on actually chosen detector) Radio Frequency Identification (RFID) for data traceability. (RFID tags for flow cells and UV lamp allow unambiguous traceability of measurement conditions) |
System control | Through local workstation software, client/server network data system and/or local handheld control module (1200 Infinity Series Instant Pilot). Default control: LAN / CAN. |
Specifications of individual Agilent 1260 Infinity Quaternary LC System modules
Agilent 1260 Infinity Quaternary Pump |
Agilent 1260 Infinity Quaternary LC System Manual and Quick ReferenceSystem Manual and Quick Reference Guide for Agilent 1260 Infinity Quaternary LC System
Found In : User Manual | Date: Aug 04, 2010 | FileSize: 1.816 MB
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