RIC Japan

RIC at Tsukuba, Japan (Region II)

(Information on this webpage is based on the latest report from the RIC.
Please refer to the RIC's website for the latest information.)
General Site Information
Address: 1-2 Nagamine Tsukuba Ibaraki 305-0052, Japan
Website: http://www.jma.go.jp/jma/jma-eng/jma-center/ric/RIC_HP.html
Contact person: Takashi HAMAGAMI
Email:  ta.hamagami@met.kishou.go.jp; ric-tsukuba@met.kishou.go.jp
Tel: +81 298 51 4123
Fax:
Calibration capabilities: Temperature, Relative Humidity, Atmospheric Pressure, Wind
Specific Information on instrument calibration capabilities
Temperature
Instrument Undergoing Calibration
Calibration Range
Reference standard, Equipment
Calibration and Measurement Capability (CMC)*
Traceability of Reference equipment
Last standard calibration date
Calibration body
Contact Type Thermometer
 

-40 to 50 °C

 
Platinum resistance thermometer NSR-160 (Netsushin)
 

From -40 °C to less than 0 °C :45 mK, 0 °C : 13 mK, from more than 0 °C up to 50 °C : 36 mK (Level of confidence approximately 95 %)

 
23 August 2023
 
Japan Electric Meters Inspection Corporation
 
Status of accreditation (date of the latest accreditation): Valid, accredited 30 August 2020 according to ISO/IEC 17025:2017, 30 August 2020
Link to the accreditation certificate
Accreditation body: National Institute of Technology and Evaluation (Japan)
Relative Humidity
Instrument Undergoing Calibration
Calibration Range
Reference standard, Equipment
Calibration and Measurement Capability (CMC)*
Traceability of Reference equipment
Last standard calibration date
Calibration body
Dew-point hygrometer

Dew point:

-5 to 0 °C

Chilled-mirror dew-point hygrometer (display)
DewStar S-1M-0 (sensor)

DewStar S-2S-0K (Shinyei technology, Japan)

 
Dew point 0.12 °C (Level of confidence approximately 95 %)
22 February 2023
National Metrology Institute of Japan

Dew point:

0 to 25 °C

Dew point 0.09°C (Level of confidence approximately 95 %)
Electronic hygrometer

20 to < 30 %RH

(for temp: 20 to 26 °C)

0.8 %RH (Level of confidence approximately 95 %)

30 to 95 %RH

(for temp: 20 to 26 °C)

1.7 %RH (Level of confidence approximately 95 %)

20 to < 30 %RH

(for temp: 20 - 26 °C)(1)

0.6 %RH (Level of confidence approximately 95 %)

30 to 95 %RH

(for temp: 20 - 26 °C)(1)

1.4 %RH (Level of confidence approximately 95 %)
(1) - Calibration which regards a dew-point hygrometer as the hygrometer of a relative humidity indication
Status of accreditation (date of the latest accreditation): Valid, accredited 30 August 2020 according to ISO/IEC 17025:2017, 30 August 2020
Link to the accreditation certificate
Accreditation body: National Institute of Technology and Evaluation (Japan)
Atmospheric Pressure
Instrument Undergoing Calibration
Calibration Range
Reference standard, Equipment
Calibration and Measurement Capability (CMC)*
Traceability of Reference equipment
Last standard calibration date
Calibration body
Digital pressure gauge
 

50 to 1150 hPa

 

   Pressure balance AV-02 (Futaba sokki)

The lager one of the two0.0085% or 7.5 Pa (Level of confidence approximately 95 %)

 
 
8 October 2021
National Metrology Institute of Japan
Status of accreditation (date of the latest accreditation): Valid, accredited 30 August 2020 according to ISO/IEC 17025:2017, 30 August 2020
Link to the accreditation certificate
Accreditation body: National Institute of Technology and Evaluation (Japan)
Wind
Instrument Undergoing Calibration
Calibration Range
Reference standard, Equipment
Calibration and Measurement Capability (CMC)*
Traceability of Reference equipment
Last standard calibration date
Calibration body
Anemometer

0.5 to 90 m/s

From 0 to 20 m/s:

Ultrasonic anemometer
DA-700 (Sonic, Japan)

N/A
27 November 2023
National Metrology Institute of Japan

From 20 to 90 m/s:

Pitot tube JB1512154 (Tsukuba Rikaseiki, Japan)

Differential pressure gauge MT210  (2 sets) (Yokogawa, Japan)

21 February 2022
Status of accreditation:
Link to the accreditation certificate
Accreditation body: 

* A CMC (calibration and measurement capability) is the smallest uncertainty of measurement that can be expected to be achieved by the RIC during a calibration. This CMC is evaluated by the RIC itself and described in the scope of accreditation of the RIC, if available.

 
Further Information

Report of the RIC (March 2024)

Report of the RIC (2023)

Report of the RIC (2022)

Report of the RIC (February 2021)

Report of the RIC (February 2020)