Affiliation:
1. National Institute of Standards and Technology, Physical Measurement Laboratory, Quantum Measurement Division, Gaithersburg, MD 20899, USA
Abstract
Calibration services for resistance metrology have continued to advance their
capabilities and establish new and improved methods for maintaining standard resistors.
Despite the high quality of these methods, there still exist inherent limitations to the
number of simultaneous, measurable resistors and the temperature stability of their air
environment. In that context, we report progress on the design, development, and initial
testing of a precise temperature-control chamber for standard resistors that can provide
a constant-temperature environment with a stability of ± 6 m°C. Achieving this stability
involved customizing the chamber design based on air-flow simulations. Moreover,
microprocessor programming allowed the air flow to be optimized within an unsealed
chamber configuration to reduce chamber temperature recovery times. Further tests were
conducted to improve the stability of the control system and the efficiency of the
chamber.
Funder
Physical Measurement Laboratory
Publisher
National Institute of Standards and Technology (NIST)
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