IETLAB SR102 / 103/104 系列稳定电阻标准(1 ppm /年)

(Full specifications can be found on datasheet)

Highest accuracy (1 ppm/yr) and stability (±0.5 ppm/yr typical) of any resistance standard
Lowest temperature coefficients (< 0.1 ppm/ºC)
Available in 3 models: 100Ω, 1000 Ω, 10,000Ω.
Has remained the foremost resistance standard, with no equivalent, for over 35 years
5 Year Warranty Included
The primary standard of National Metrology Labs throughout the world
Has remained the foremost resistance standard, with no equivalent, for over 35 years
Oil filled, hermetically sealed; units can be supplied without cases for use in oil bath
ISO/IEC-17025 Accredited Calibration Included
Alpha Beta Measurements Included





First 2 years: ±1 ppm/year, thereafter: ±0.5 ppm/year
Temperature coefficient
Alpha: <0.1 ppm/°C at 23°C
Beta (1/2 rate of TC change):<0.03 ppm/°C from 18°C to 28°Ct
No ovens or external power required
Power coefficient<1 ppm/W
Adjustment to nominal ±1 ppm
Measurement uncertainty <0.32 ppm
Max voltage 500 V peak to case
Power rating 1 W (Momentary 100 W overloads will not cause failure)
Thermal emf Thermal emf at the terminals does not exceed ±0.1 μV under normal conditions.
Insulation resistance All terminals maintain a minimum 1012 Ω to ground
Internal temperature sensor 100 Ω, 1 k Ω, or 10 kΩ resistor with 1,000 ppm/°C temperature coefficient. Integral thermometer well is provided for calibration
Hermetic sealing To eliminate the effects of humidity, the resistor is hermetically sealed in oil with metal-to-glass seals. The resistance changes
<±0.1 ppm with normal atmospheric pressure and humidity changes.

The World's Most Stable Resistance Standard

IET continues to manufacturer the SR102 & SR104 to the same exacting specs as esi/Tegam

The esi SR102, SR103 & SR104 are a highly stable (±0.5 ppm/year) and accurate (1 ppm), 100 Ω, 1 kΩ, 10kΩ resistance standards. The SR102, SR103 and SR104 Standards are equipped for five-terminal measurements used for Standard Resistor readings and for Temperature Sensor readings. Individual calibration data, which identifies the Standard Deviation, and the Temperature Characteristics, is supplied with each unit. In addition, each unit is equipped with a thermal well so that the exact temperature of the resistance standard is known. This allows the user to make highly precise, temperature compensated, measurements.

esi SR102 100 Ω Primary Resistance Standard
These resistance standards were designed to provide an important link between rather odd Quantum Hall resistance values and traditional decade resistance values. 100 Ω provides unique reference capability.

esi SR103 1000 Ω Primary Resistance Standard
New resistance standard recently developed to improve the range of primary standards available.

esi SR104 10 KΩ Primary Resistance Standard
This has been the long-standing industry standard for the 10 kΩ. This everlasting standard is the benchmark for high accuracy, stability and low temperature coefficients for calibrations requiring NIST traceability.

The SR102, SR103, and SR104 precision Transportable Resistance Standards are oil filled, hermetically sealed, five-terminal resistance standards designed for precision bench top or oil bath applications.

The long-term stability of these resistance standards is typically less than 0.2 ppm per year and temperature coefficients are less than 0.1 ppm per degree Celsius. This excellent long-term stability and low temperature coefficient is achieved by using matched groups of resistors constructed of the alloy Evanohm-R. The resulting low temperature coefficient allows high performance applications of these standards inside or outside an accurately controlled temperature environment.

Maximum accuracy is calculated as a temperature corrected resistance value. This is accomplished by using the built-in RTD temperature sensor to measure the internal temperature and referencing a temperature correction chart provided with each unit. The measurement accuracy of the built-in RTD thermometer is better than 0.1 degree Celsius.

Very low power coefficients are achieved by using standard resistors constructed with large surface areas like our original Model SR104, 10kΩ standard resistor. The resistors are surrounded by oil to conduct heat generated by the measuring currents out through the stainless steel case.

These characteristics facilitate precise laboratory comparisons without critical environmental controls and are used wherever a need for a very accurate, stable resistor of low temperature coefficient is required.

100 ohm Transportable Resistance Standard: SR-102
1,000 ohm Transportable Resistance Standard: SR-103
10,000 ohm Transportable Resistance Standard: SR-104
For deleted case version add -DC at the end of the part number

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