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      •  Physike Technology Co., Ltd. 
       
      ZrON? Cryogenic Temperature Sensor
      ZrON? cryogenic temperature sensors are not only characterized by high sensitivity, fast thermal response, wide operating temperature range, good thermal cycle repeatability and high mechanical strength, but also have the advantages of low magnetic reluctance, radiation-resistant, and low annual drift, which can be widely used in cryogenic/ultra-low temperature systems, superconducting magnet systems, gas pedals, colliders, synchrotron light sources, advanced light sources, neutron sources, high-energy physics, astronomical telescopes, cosmic microwave background radiation detection and quantum computation.
      The temperature sensing unit of the ZrON? cryogenic sensor is a ZrON film grown by reactive magnetron sputtering. By adjusting the ratio of nitrogen oxides in the reactive magnetron sputtering and the growth temperature to regulate the temperature response range of the ZrON film, combined with the advanced lithography technology and encapsulation process, it is capable of realizing the full coverage of the temperature range from 100 mK to 425 K. 
      ZrON? cryogenic sensors are available in three standard packages, SD, Bobbin and Can, and are classified into four models, ZrON-10, ZrON-50, ZrON-70 and ZrON-80, depending on the resistance range and operating temperature zone. Typical temperature accuracies are: ±5mK@1K; ±5mK @4.2K, ±15mK@77K and ±50mK@300K.









      Typical Characteristics
      ü Low magnetic reluctance
      ü High sensitivity      
      ü Large operating temperature range
      ü High-energy radiation resistance
      ü High mechanical strength
      ü Excellent thermal cycle repeatability
      ü Fast thermal response
      ü Low annual drift





      Recommended Operating Temperature Range 
      Calibrated temperature range
      ZrON-10
      1K-325K(option:100mK lower limit)
      950mK-325K(option:280mKand 100mK lower limit)
      ZrON-50
      1.5K-325K(Option: 425K upper limit)
      1.2K-325K(Option: 425K upper limit)
      ZrON-70
      2K-325K(Option: 425K upper limit)
      1.8K-325K(Option: 425K upper limit)
      ZrON-80
      2.5K-325K(Option: 425K upper limit)
      2K-325K(Option: 425K upper limit)
       
       








      Typical resistance-temperature curves for ZrON-10 cryogenic temperature sensors




      Typical sensitivity-temperature curves for ZrON-10 cryogenic temperature sensors



      Typical dimensionless sensitivity-temperature curves for ZrON-10 cryogenic temperature sensors



      Typical temperature errors (ΔT/T%) associated with magnetic fields for ZrON-10 cryogenic temperature sensors






       
      Table of Typical Temperature Errors (ΔT/T%) Associated with Magnetic Fields for ZrON?-10 Cryogenic Temperature Sensors

      1T
      2T
      3T
      4T
      5T
      6T
      7T
      8T
      9T
      10T
      11T
      12T
      13T
      14T
      1.45K
      0.34
      1.19
      2.49
      3.46
      4.16
      4.79
      5.44
      6.06
      6.69
      7.29
      7.94
      8.57
      9.26
      9.94
      2.5K
      0.28
      1.05
      1.66
      1.86
      1.94
      2.13
      2.32
      2.52
      2.71
      3.09
      3.47
      3.92
      4.40
      4.95
      4.2K
      0.05
      0.08
      0.11
      0.13
      0.16
      0.18
      0.24
      0.30
      0.36
      0.47
      0.59
      0.68
      0.77
      0.90









      Comparison of typical temperature errors (ΔT/T%) associated with magnetic fields for three cryogenic temperature sensors: ZrON-10, CX-1010, CX-1050



      Typical Temperature Errors (ΔT/T%) Associated with Magnetic Fields for ZrON-50, 70 and 80 cryogenic temperature sensors




      Typical Resistance Temperature Curves for ZrON-50, 70 and 80 Cryogenic Temperature Sensors



      Typical Sensitivity Temperature Curves for ZrON-50, 70 and 80 Cryogenic Temperature Sensors




      Typical Dimensionless Sensitivity Temperature Curves for ZrON-50, 70 and 80 Cryogenic Temperature Sensors






       
      Table of Typical Temperature Errors (ΔT/T%) Associated with Magnetic Fields at 1.5 K for Three Cryogenic Temperature Sensors, ZrON-50, 70, and 80.

      1T
      2T
      3T
      4T
      5T
      6T
      7T
      8T
      9T
      ZrON-50
      0.504
      1.402
      1.934
      2.253
      2.4862
      2.752
      3.052
      3.398
      3.797
      ZrON-70
      0.272
      0.788
      1.054
      1.154
      1.234
      1.353
      1.546
      1.812
      2.138
      ZrON-80
      0.024
      0.081
      -0.108
      -0.407
      -0.400
      -0.860
      -0.953
      -0.933
      -0.860
       




      SD package


      Low magnetic reluctance
      Mass:25mg
      Hermetic Ceramic Package
      Ultra-high vacuum compatible
      Size: 2mm×3.2mm×1.2mm
      Two gold-plated copper pins





      Bobbin package

      Low magnetic reluctance
      Mass:1.0g (excluding leads)
      Size: 8mm diameter, 5mm height
      Two pairs of four-color wires (red, green, natural and blue), 36AWG phosphor bronze twisted, length 1m, polyimide insulation





      Can package

      Low magnetic reluctance
      Mass:0.38g (excluding leads)
      Canister Package
      Size: 3mm diameter, Length: 8mm
      Two pairs of four-color wire (red, green, natural and blue), 36 AWG phosphor bronze twisted, length 1m, polyimide insulation


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