Metrologi Tegangan Listrik: Ketertelusuran dan Implementasi

Screenshot 2024-04-17 132133

Categories



Published

November 19, 2015

HOW TO CITE

R. Hadi Sardjono

Keywords:

Metrologi, Tegangan Listrik

Synopsis

Semua orang telah mengenal apa yang disebut sebagai besaran tegangan listrik. Namun, seberapa jauhkah mereka mengetahui spesifikasi teknis yang dimilikinya, seperti mengenai parameter-parameter ketelitian, kestabilan, dan efektivitasnya, tentu masih jarang. Parameter-parameter yang menentukan kondisi ketahanan cadangan tegangan listrik yang semakin terbatas terhadap kebutuhan yang semakin berkembang akan terjawab di dalam buku ini.
Pengertian mengenai parameter tersebut didefinisikan ke dalam pengertian ketertelusuran dan implementasinya melalui metrologi tegangan listrik. Metrologi tegangan listrik adalah ilmu yang mempelajari tentang besaran tegangan listrik, baik AC maupun DC dalam hal merancang rangkaian pengukuran dan menganalisis hasil pengukuran menurut JCGM-2008. Tingkat kompetensi kemetrologian seseorang dapat dibangun oleh penguasaan materi yang disajikan buku ini.
Berbicara mengenai tingkat kompetensi berarti tidak lepas dari perhitungan tingkat kegunaannya, seperti untuk skala laboratorium, skala industri, skala perguruan tinggi, dan skala awam. Buku ini sangat cocok untuk dipergunakan untuk pembekalan ketiga skala terdahulu untuk diimplementasikan dan didiseminasikan walaupun ada yang dapat dipelajari oleh masyarakat sebagai pengetahuan.Copyeditor :  Tantrina Dwi Aprianita dan Fadly Suhendra Layouter : Astuti Krisnawati dan Rahma Hilma Taslima Cover designer  : Rusli Fazi Registrasi : ISBN 978-979-799-820-2 (01/03/15) Halaman : xvi + 119 hlm. Dimensi : A5 (14,8 x 21 cm)

©2015 Lembaga Ilmu Pengetahuan Indonesia (LIPI)

References

Avramov-Zamurovic, S., Oldham, N. M., Parker, M. E., & Waltrip, B. C. Low-frequency characteristics of thin- lm multijunction thermal voltage converters. Instrumentation and Measurement, IEEE Transactions, 47(1), 87–89.

Bennett G. (2004). Calibrating precision multimeters using a characterized multifunction calibrator. Dalam NCSL International Workshop and Sym- posium. Everett, Washington: John Fluke Mjg, Co, Inc.

Benz, Z. (2012). A primary voltage standard for the whole world. NIST. Diakses pada 14 November 2012 dari http://nist.gov/pml/div686/devices/auto- mated-voltage-standard-ready.cfm.

Bureau International des Poids et Mesures. (2006). e international system of units (8th edition, 2014). Sevres: Bureau International des Poids et Mesures (BIPM). Diakses dari http://www.bipm.org/en/publications/si-brochure/

Burrough, C. J, Dresselhaus, P. D, Rufenacht, A., Olaya, D., Elsbury, M. M., Yi-hua T, dkk. (2011). NIST 10 V programmable josephson voltage stan- dard sistem. Instrumenation and Measurement, IEEE Transactions, 60(7), 2482–2488.

Cooper, W. D. (1978). Electronic instrumentation and measurement techniques (2nd Edition). Englewood Cli s: Prentice-Hall.

Chen, W. Y. (2004). Home networking basics. New Jersey: Prentice Hall; 2004. Chisholm, H. (1911). Encyclopaedia Britannica (11th Edition). Cambridge:

Cambridge University Press.

Fluke Corporation. (1992). Instruction Manual “792A–AC/DC Transfer Stan- dard”. Everett, Washington: John Fluke Mjg, Co, Inc.

Fluke Corporation. (1996). Operators Manual “5720A/5700A Series II–Multi- function Calibrator”. Everett, Washington: John Fluke Mjg, Co, Inc.

Fluke Corporation. (2002a). Users Manual “3458A–Reference Multimeter”. Ev- erett, Washington: John Fluke Mjg, Co, Inc.

Fluke Corporation. (2002b). Users Manual “8508A–Reference Multimeter”. Everett, Washington: John Fluke Mjg, Co, Inc.

Fluke Corporation. (2006). Migrating from dc voltage dividers to modern reference multimeters. Everett, Washington: John Fluke Mjg, Co, Inc.

Garcocz, M. (2010). Single ermal Converters of a new design. Makalah disaji- kan pada CPEM 2002 at the satellite meeting for AC-DC Transfer Experts 2002, Ottawa, Amerika Serikat. Sun Valley, California: Measure Tech, Inc.

Halawa, M. (2009). Performance of the single junction thermal voltage con- verter at 1 mhz via equivalent circuit simulation. e International Journal of Metrology, CAL LAB, 40–45.

Huntley, L. (1995). An assessment of artifact Calibration E ectiveness For Multifunction Calibrator. Dalam Proceeding of the 1995 National Confer- ence of Standards Laboratories, Dallas, Texas. Everett, Washington: John Fluke Mjg, Co, Inc.

ISO 3534. (2006). Statistics, vocabulary and symbols—Part 1: Gener- al statistical terms and terms used in probability. 105 hlm. Tersedia di: http://www.iso.org/iso/catalogue_detail.htm?csnumber=40145

Ivan, R. W., & Ian, R. B. (1998). Training course for assessors of calibration laboratoriumoratories. Australia: NATA.

JCGM 200:2012. (2008). International vocabulary of metrology: Basic and gen- eral concepts and associated terms (VIM) (3rd edition). JCGM.

Muravyov, S. V., Zlygosteva, G. V., & Borikov, V. N. (2011). Multiplicative method for reduction of bias in indirect digital measurement result. Metrol. Meas. Syst., XVIII(3), 481–490.

National Institute of Standards and Technology (NIST). (2014). Ampere. Diak- ses pada 9 Maret 2014 dari http://physics.nist.gov/cuu/Units/ampere.html.

Sakamoto, Y., Sakuraba, T., Iwasa, A., Kinoshita, J., & Endo, T. (1994). Monitoring industrial voltage standards by transporting Zener references calibrated by ETL Josephson standard. Dalam Precision Electromagnetic Measurements Conference, 55–56. Boulder, CO, USA, June 27 1994-July 1 1994, 55–56, ISBN(0-7803-1984-2)

Sardjono, R. H. (1988). Automatic measurement of the standard cells. Dalam Proceeding of PPI–KIM, 105–113.

Sardjono, R. H. (1994). e application of low thermal electronic switch as reversing polarity on the circuit sistem of cell standard calibration. Journal of Instrumenation (KIM-LIPI), 9–21.

Sardjono, R. H. (2006). Penerapan ketelitian sistem pengukuran tegangan DC standar nasional 1 V pada ketelitian 1.7 ppm. Journal of Instrumentation (KIM-LIPI), 11–19.

Sardjono, R. H. (2007). Disemination sistem design of thermal voltage con- verter (TVC) based on the AC–DC voltage diference analysis. Computer Technics Journal-UBINUS, 15(1), 110–124.

Schwall, R. E., Zilz, D.P., Power, J., Burroughs, C.J., Dresselhaus, C.J., & Benz, S. P. (2011). Practical operation of cryogen-free programmable jo- sephson voltage standards. Applied Superconductivity, IEEE Transactions, 21(3) Part1, 891–895.

Shirokov, K. P. (2010). e Great Soviet Encyclopedia (3rd Edition, 1970–1979). Farmington Hills, Michigan: e Gale Group, Inc.

Stutz, M. (2011). Basic ac theory: measurement of ac magnitude. Diakses pada 30 Mei 2011 dari http://www.allaboutcircuits.com/vol_2/chpt_1/1.html

Tang, Y., Ojha, V. N., Schlamminger, S., Ru?fenacht, A., Burroughs, C. J., Dresselhaus, P. D., & Benz, S. P. A 10 V programmable Josephson voltage standard and its applications for voltage metrology. Metrologia, 49(6), 635.

Bureau International des Poids et Mesures (BIPM), (2006). e international system of units. 8th edition, Updated in 2014. Tersedia di: http://www.bipm. org/en/publications/si-brochure.

Scroll to Top
×