Product category:
Testing, analysing and monitoring equipment
News Release from: Isothermal Technology (Isotech) | Subject: MicroK
Edited by the Engineeringtalk Editorial
Team on 10 August 2006
Thermometer sets calibration standards
Precision thermometer claims new world standards for accuracy and stability.
Isothermal Technology (Isotech) has introduced a new type of precision thermometer, which it claims will set new world standards for accuracy and stability Designed for a wide range of highly accurate industrial and scientific calibration applications, the instrument uses a completely new measurement technique to achieve accuracies better than 0.4ppm - equivalent to 0.0004C - when used with a standards platinum resistance thermometer (SPRT)
This article was originally published on Engineeringtalk on 14 Feb 2002 at 8.00am (UK)
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Designed and manufactured in Britain, MicroK is believed to be the only instrument of its type in the world which will work to this precision with all three commonly used sensors, platinum resistance thermometers (PRTs), thermocouples and thermistors.
In terms of long term stability, MicroK achieves literally zero drift for resistance ratio measurements and an annual drift of only 3ppm for voltage measurements.
Using sophisticated software and specially developed circuitry, the MicroK is easy to use and has a comprehensive range of built-in features.
It uses a 6.4in VGA colour touch screen as the main user interface, providing a number of graphically presented user options and controls.
The underlying operating system is Microsoft Windows CET facilitating direct reading of temperature for all sensor types, data logging, export of data into Microsoft Excel applications and graphing facilities.
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Measurement best practice guidelines recommend the use of two separate reference thermometers when carrying out temperature calibrations.
For that reason the designers of the MicroK have incorporated three channels, enabling users to achieve best practice without having to invest in additional multiplexers.
The instrument also includes keep-warm current sources to maintain the power in a PRT when it is not being measured.
This feature effectively eliminates uncertainty resulting from power coefficients.
A key to achieving such high accuracies and stability is the use of a specially designed analogue to digital convertor (ADC) within the instrument's measurement circuits.
In conjunction with a digital signal processor (DSP), this uses a unique adaptation of existing advanced sigma-delta ADC techniques to achieve linearity better than 0.4ppm.
A further major benefit of this ADC technique is its low noise performance, and the designers claim that electronic noise is reduced by a factor of 32 over conventional sigma-delta ADC circuits.
A further break with convention is that the instrument uses no mechanical switches, relays or potentiometers whatsoever (other than the main power on/off switch), relying on solid state switching to route voltage and current signals internally.
Comparable instruments in this class have used high quality mechanical relays for this purpose, a technique which inherently introduces inaccuracies arising from thermal EMFs, and degrades reliability.
By using the latest semiconductor technology, performance has been enhanced, component counts have been reduced and reliability considerably improved.
The MicroK range consists of two instruments, offering a choice of measurement accuracy.
The MicroK 400 is accurate to 0.4ppm over the whole temperature range of SPRTs with R0 of 2.5ohm, equivalent to 0.1mK at 0C.
With thermocouple sensors the voltage uncertainty is 0.25uV, equivalent to 0.01C for gold-platinum thermocouples.
The MicroK 800 is accurate to 0.8ppm over the whole temperature range of SPRTs with R0 of 2.5ohm, equivalent to 0.2mK at 0C.
With thermocouple sensors the voltage uncertainty is the same as the MicroK 400 model.
According to Isotech, the two instruments in the MicroK range offer performance characteristics and features which are simply not available elsewhere.
Comparable instruments available internationally do not achieve the same accuracy or stability (zero drift characteristics with SPRT measurements are not obtainable in any other instrument), do not support the same variety of sensors, and offer considerably less operational features.
As a result, the cost of ownership, a key feature of growing international importance, has been considerably reduced.
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