Yamari Validation System is designed to automatically validate that the autoclaves used in pharmaceutical companies are processed at the specified temperatures and eliminates opportunities for recording false data. The system consisting of a temperature calibration bath, a temperature indicator, a data logger, temperature sensors and a personal computer, guarantees the measuring accuracy of ±0.5℃ or less, which is in conformity with the requirements of FDA-cGM. TQSoft from TQ Solutions Limited www.tqsolutions.net has been installed on this validation system.
BB 660/25.5 is the Standard Platinum Resistance Thermometer jointly developed
with National Institute of Advanced Industrial Science and Technology (AIST/NMIJ)
as an interpolation device for measurements from -190℃ to approximately
+660℃. Employing a sensing element with a single helix coil structure (Japan
Pat. No.3380523) provides superior stability at high temperature and high
resistance to vibration. It can also provide smaller self-heating temperature
rise and high response.
Standard Specifications
Characteristics
Sensing Element
:
Single helix coil wound in a quarts sensing frame at noninductive winding (L ≦ 40mm)
Sensing Element
:
Platinum (4-wires connection)
Quartz Sheath
:
φ7mm x approx.570mm length
Sensing Handle
:
φ19mm x approx.100mm, Aluminum outer casing
Lead Wires
:
4 Teflon insulated copper wires jacketed with cross-linked polyethylene x 2.5m
Temperature Range
:
from -189.3442℃(Ar TP) to +660.323℃(Al FP)
Resistance Value
:
approx. 25.5Ω R0
Resistance Ratio
:
WGA (29.7646℃)≧1.11807
Reproducibility
:
within 1mK
BB(S) 962/2.5 is the Standard Platinum Resistance Thermometer jointly developed
with National Institute of Advanced Industrial Science and Technology (AIST/NMIJ)
as an interpolation device for measurements from +660℃ to approximately
+962℃. Employing a sensing element with a single helix coil structure (Japan
Pat. No.3380523) provides superior stability at high temperature and vibration
resistance. Adopting a sapphire coil frame and a sapphire sheath has improved
both electrical insulation and the contamination of the sensing element.
Standard Specifications
Characteristics
Sensing Element
:
Single helix coil wound in a sapphire sensing frame at noninductive winding (L ≦ 40mm)
Sensing Element
:
Platinum (4-wires connection)
Sapphire Sheath
:
φ7mm x approx.570mm length
Sensing Handle
:
φ19mm x approx.100mm, Aluminum outer casing
Lead Wires
:
4 teflon insulated copper wires jacketed with cross-linked polyethylene x 2.5m
Temperature Range
:
from +660.323℃(Al FP) to 961.78℃( Ag FP)
Resistance Value
:
approx. 25.5Ω R0
Resistance Ratio
:
WGa (29.7646℃) ≧ 1.11807 WAg(961.78℃)≧4.2844
Reproducibility
:
within 5mK
These cells were jointly developed with National Institute of Advance Science and Technology (AIST/NMIJ) to realize the defining points of ITS-90. Cells are designed specifically to realize the liquid-solid equilibrium of certain high-purity metal elements. Cells are available as sealed or open cells. All cells contain the high-purity thermometric metals in graphite crucibles, surrounded by an envelope of pure fused quartz. Sealed cells are completely enclosed in quartz and filled with an argon gas, which assumes a pressure of one standard pressure (101325 Pa) at the freeze point. Sealed cells are consequently protected against contamination and the influence of ambient pressure, and are easy to handle, as there is no need to prepare an inert gas supply-exhaust system. A series of Model 37000 are sealed cells, and can be used for the calibration of SPRTs.
Model No.
Metal
Fixed Point Temperature(℃)
37668
Indium
156.5985
37669
Tin
231.928
37671
Zinc
419.527
37672
Aluminum
660.323
37673
Silver
961.78
■Model 37703 Low Temperature Furnace
Model 37703 Low Temperature Furnace is designed specifically to realize and maintain the freeze plateau of Indium, Tin and Zinc Fixed Point Cells, for calibration of thermometers on ITS-90. The aluminum furnace core, into which the fixed point cell is inserted, is heated by the 3-Zone heaters in noninductive winding controlled individually by the high-resolution controllers (zero-cross control) using platinum thermocouple, and this provides a very low thermal gradient along the core length and low noise at calibration. The variable set point over-temperature trip function can prevent a temperature runaway of the furnace.
Specifications and Characteristics
Temperature Stability
(At inside re-entrant well of Cell)
Less than 0.2℃
Temperature Gradient
(At inside re-entrant well, bottom to 200mm)
Less than 0.2℃
Temperature Range
50℃ to 450℃
Furnace Dimensions
850mm(H)x 850mm(W)x 450mm(D)
Furnace Weight
Approx. 100kg
Power
AC 100V 50/60Hz, 1.5kw max.
*Optionally, a step-down transformer is available for use in AC 200V power.
■Model 37702 High Temperature Furnace Model 37702 High Temperature Furnace is designed specifically to realize and maintain the freeze plateau of Zinc, Aluminum and Silver Fixed Point Cells, for calibration of thermometers on ITS-90. The furnace core is a specially designed heat pipe, which provides a very low thermal gradient along the core length. The heat pipe is heated by radiant heat generated from the heater unit in noninductive winding, which is controlled by the high-resolution controller (zero-cross control) using type R thermocouple. The variable set point over-temperature trip can prevent a temperature runaway of the furnace.
Specifications and Characteristics
Temperature Stability
(At inside re-entrant well of Cell)
Less than 0.2℃
Temperature Gradient
(At inside re-entrant well, bottom to 200mm)
Less than 0.2℃
Temperature Range
450℃ to 1000℃
Furnace Dimensions
850mm(H)x 800mm(W)x 500mm(D)
Furnace Weight
Approx. 100kg
Power
AC 100V 50/60Hz, 1.5kw max.
*Optionally, a step-down transformer is available for use in AC 200V power.
The above 2 furnaces were jointly developed with National Institute of Advanced Science and Technology (AIST/NMIJ) to realize the defining points of ITS-90 using the high-purity metal fixed point cells.