5960A Triple Point of Argon System

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  • 5960A Triple Point of Argon System

Key Features

  • Low uncertainty: 0.25 mK, and a long temperature plateau duration of over 30 hours.
  • Four entrant wells with radial uniformity less than 0.05 mK
  • Total immersion depth of 480 mm.
  • Argon with a purity of 99.9999%.
  • Multi-language display support.
  • Consistent, reproducible process for realizing the argon triple point.

Product overview: 5960A Triple Point of Argon System

Low calibration uncertainty


A number of technology advancements are designed into the Fluke Calibration 5960A system to achieve a low uncertainty of 0.25 mK. For example, the argon cell is carefully built with an ultra-clean process using 99.9999 % (six nines) purity argon resulting in an uncertainty factor from impurities of 0.015 mK. The deep, 480 mm immersion depth of the entrant well minimizes the effects of stem conduction to less than 0.01 mK and radial uniformity to less than 0.05 mK.

High lab throughput


The 5960A system utilizes liquid nitrogen (LN2) in a Dewar vessel surrounding an argon cell to achieve –189.3442 °C. A digital controller combined with a heater maintains a temperature plateau lasting up to 30 hours with 0.1 mK variation without using complicated pressure controls. By regular renewal of liquid nitrogen in the system, the plateau length can even be extended to four days. The system’s long, stable temperature plateau lets you carry out your SPRT calibrations with better quality and more efficiency. Four entrant wells increase lab productivity by allowing you to calibrate four SPRTs simultaneously.

Ease of operation and maintenance


The display panel of the 5690A provides a simple menu structure with soft function keys for setup and programming the argon system. The readout displays simultaneously the set-point temperature, actual control sensor temperature and percent heater power. The display is selectable in eight languages—English, French, Spanish, Italian, German, Russian, Chinese, and Japanese. Applying positive pressure with helium or dry nitrogen to an entrant well port prevents your SPRTs from being bound in the entrant well by freezing moisture. You can insert and remove SPRTs as desired from the system over the duration of a single plateau. Other systems require that you first melt the cell in order to add or remove an SPRT.

Specifications: 5960A Triple Point of Argon System

Specifications
Assigned value-189.3442 °C
Argon gas purity99.9999 % (6N purity)
Uncertainty (k=2)0.25 mK
Length of plateau (0.1 mK)>30 hours
Argon cell depth*160 mm
Number of entrant wells4
Radial uniformity0.05 mK
Total immersion depth480 mm
Entrant well inner diameter (ID)8.0 mm
Argon gas volume13.4 moles (535 grams)
Liquid nitrogen Dewar volume44.2 liters
Display resolution0.001 °C
Set-point accuracy0.1 °C (adjustable)
Power requirements100 V to 115 V (± 10 %) 50/60 Hz, 230 W 230 V (± 10 %) 50/60 Hz, 230 W
System fuse ratings 115 V: 2 A T 250 V
230 V: 1 A T 250 V 
Size (HxWxD) 952 mm x 673 mm x 483 mm (37.5 in x 26.5 in x 19 in) 
Weight 94 kg (207 lbs) 
*Measured from the bottom of the probe well to the surface of argon sample

Models: 5960A Triple Point of Argon System

5960A
Triple Point of Argon System

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