Column Ovens

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  • Simple and fast assembly with unique holding adapters, fits easily into existing systems
  • Exact temperature control for highest reproducibility and stability
  • Temperatures up to 90°C can significantly reduce back pressure with small particle sizes and accelerates the chromatography
  • Fits column lengths up to 150 mm
  • Can be controlled directly via the Zirconium UHPLC system, or via an optional touch screen controller for manual control
  • Software drivers for Analyst, Xcalibur and others systems

Specifications

200 mm 300 mm
Dimensions: 212 mm x 40 mm x 46 mm 312 mm x 40 mm x 46 mm
Dimensions with mounted heat shield: 212 mm x 62 mm x 52 mm 312 mm x 62 mm x 52 mm
Thermostated column compartment: 200 mm x 21 mm x 21 mm 300 mm x 21 mm x 21 mm
Weight (including heat shield): 1.05 kg 1.35 kg
Remote control by LAN or serial port
Power supply 110 VAC to 240 VAC
Temperature control: ambient to 90°C in 0.1°C increments, stability +/- 0.1°C

Optional Accessory Parts:

  • Hotfix 5090 Adapter to CTC PAL ® autosampler
  • Magfix 5090 Adapter to Applied Biosystems|MDS SCIEX mass spectrometers (API 3200 TM, API 4000 TM, API 4000 TM and QTrap TM instruments)
  • Clampfix 5090 Adapter to Thermo Fisher Scientific mass spectrometers (MS-W133 mm)
  • Softfix 5090 Software package (standalone software for Windows TM , software driver for MDS Sciex Analyst TM and Thermo Fisher Scientific XCalibur TM)
  • Heatfix 5090 ST Heat exchanger, standard volume (50 μl)
  • Heatfix 5090 LV Heat exchanger, low volume (13 μl)

HeatFix

The HeatFix 5090 Heat Exchanger
The HeatFix 5090 Heat Exchanger

The HeatFix 5090 heat exchanger can be used as a connection / transfer line between injection port and column. The Heatfix 5090 consists of two gilded copper plates which are placed inside the column compartment. A stainless steel capillary feeding through these two plates preheats the HPLC solvents, thereby reducing radial and axial temperature gradients inside the HPLC column. The Heatfix 5090’s biggest improvements are evident at longer gradients and higher temperature.

Performance Charts

Temperature Influence on Pressure. Flow: 250 μl/min; Column: Phenomenex Luna 2.5 μm C18 (2) HST 2 x 50 mm; Mobile Phase: 60/40 Methanol/Water; Temperature: 30/60/90 °C; Pressure: 181/111/85 Bar
Temperature Influence on Pressure. Flow: 250 μl/min; Column: Phenomenex Luna 2.5 μm C18 (2) HST 2 x 50 mm; Mobile Phase: 60/40 Methanol/Water; Temperature: 30/60/90 °C; Pressure: 181/111/85 Bar
Temperature Influence on Retention Times, Operating at Constant Flow. Flow: 250 μl/min; Column: Phenomenex Luna 2.5 μm C18 (2) HST 2 x 50 mm; Mobile Phase: 60/40 Methanol/Water; Sample: A: Toluene/B: Anthracene; Wavelength: 254 nm
Temperature Influence on Retention Times, Operating at Constant Flow. Flow: 250 μl/min; Column: Phenomenex Luna 2.5 μm C18 (2) HST 2 x 50 mm; Mobile Phase: 60/40 Methanol/Water; Sample: A: Toluene/B: Anthracene; Wavelength: 254 nm
Temperature Influence on Retention Times, Operating at Constant Pressure. Pressure: 181 Bar; Column: Phenomenex Luna 2.5 μm C18 (2) HST 2 x 50 mm; Mobile Phase: 60/40 Methanol/Water; Sample: A: Toluene/B: Anthracene; Wavelength: 254 nm
Temperature Influence on Retention Times, Operating at Constant Pressure. Pressure: 181 Bar; Column: Phenomenex Luna 2.5 μm C18 (2) HST 2 x 50 mm; Mobile Phase: 60/40 Methanol/Water; Sample: A: Toluene/B: Anthracene; Wavelength: 254 nm

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