Instruments and Data Logger for Measuring Electrical Parameters: Indonesian Market Review and Research Direction

  • Agus Satrya Wibawa Department Electrical Engineering, Faculty of Engineering at Udayana University
  • I Nyoman Satya Kumara
  • I Wayan Sukerayasa

Abstract

Electrical parameters such as voltage, current, power, energy, frequency, and power factor are parameters needed in the operation of an electrical system and machinery. The measurement results provide an overview of the system performance and indicator of abnormal or faulty operations. Nowadays, the electrical parameter instruments grow rapidly with a wide range of features and capability, started from analog instruments to digital measurement with data logging features. This paper reviews the availability of electrical parameter instruments and data logger systems in Indonesia. The review includes technical specifications of instruments, manufacturers, vendors, and data logging features. The data were obtained from vendor publications, manufacturers, scientific publications, and e-commerce websites in Indonesia. The information regarding the availability of the instruments and data logger systems will provide a quick reference in choosing instruments for a certain application to suit the purpose of the measurement and also the cost of the device. Moreover, the information also can provide benchmarks for research and development of low-cost multichannel data logging systems with additional features such as remotely accessible through the implementation of the internet of things.

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References

[1] Fratama, R.A. (2016). Emulasi Monitoring Parameter Kelistrikan Gardu Listrik Di Universitas Muhammadiyah Malang Menggunakan Jaringan Vpn : Server. Other thesis. University Muhammadiyah Malang.
[2] Siswoyo. (2008). Teknik Listrik Industri Jilid 2 untuk SMK. Jakarta, Indonesia: Direktorat Pembinaan Sekolah Menengah Kejuruan, 2-8.
[3] Sanjaya, I. P. G. M., Partha, C. G. I., & Khrisne, D. C. (2018). Rancang Bangun Sistem Data Logger Berbasis Visual Pada Solar Cell. Majalah Ilmiah Teknologi Elektro, 16(3), 114-121. doi: 10.24843/mite.2017.v16i03p18.
[4] Widodo, MH. S. (2014). Dasar Pengukuran Listrik. Jakarta, Indonesia: Direktorat Pembinaan Sekolah Menengah Kejuruan, 281-284.
[5] Mahzan, N. N., Omar, A. M., & Mohammad Noor, S. Zaliha. (2015). Design and Development of an Arduino Based Data Logger for Photovoltaic Monitoring System. IJSSST, 17(41), 1–5. DOI: 10.5013/IJSSST.a.17.41.15
[6] Nathawibawa, A. A. N. B. B., Kumara, I. N. S., & Ariastina, W. G. (2016). Analisis Produksi Energi Dari Inverter pada Grid-connected PLTS 1 MWp di Desa Kayubihi Kabupaten Bangli. Majalah Ilmiah Teknologi Elektro, 16(1), 131–140. DOI: 10.24843/mite.1601.18
[7] Yudhanto, Y. (2007, May 15). Apa Itu IoT (Internet of Things). IlmuKomputer. Retrieved Oktober 17, 2019. From: https://ilmukomputer.org.
[8] Shenzhen Deek Technology Co., Ltd. (2013). Deek-Robot BL-02 Digital Voltage Current Power Meter adjustable voltmeter ammeter Wattmeter Power: Instruction manual. China: Deek-Robot
[9] Sandal plc. (2018). Energy Power Analyzer KWE-PMDI-EU Digital Watt Voltage Watt Meter Ampere: User Guide. England: Energenie.
[10] Ningbo Peacefair Electronic Technology Co., Ltd. (2017).PZEM-051 DC 100V 100A 4 in 1 Voltmeter Amperemeter Wattmeter Energy meter: Product Catalog. China: Peacefair.
[11] Sinaga, S. (2018). JPN DC Watt Ampere Volt. Retrieved Oktober 18, 2019. From: https://www.bukalapak.com/
[12] Shenzhen G.T.Hobbies.Co., Ltd. (2009). GT Power 150A RC High Precision Power Analyzer & Watt Meter: Instruction manual. China: G.T Power RC.
[13] Ningbo Peacefair Electronic Technology Co., Ltd. (2017). PZEM-013 DC LCD Display Digital Current Voltage Solar Power Meter Multimeter Ammeter Voltmeter: Product Catalog. China: Peacefair.
[14] Mizhar. (2018). TCXRE AC 80-300 V LCD 100A Volt Watt Power Meter Pengukur Amper Pengukur Tegangan. Retrieved Oktober 18, 2019. From: https://www.tokopedia.com.
[15] Hangzhou Juntek Instrumentation Co., Ltd. (2018). JUNTEK DC VAT-1100 Multifunctional Wireless Digital Bi-directional Voltage Current Power Meter Ammeter Voltmeter Capacity Coulomb Counter: Instruction manual. China: JUNTEK.
[16] Kyoritsu Electrical Instruments Works, Ltd. (2015). AC Digital Clamp Meter KEW 2117R: Instruction manual. Japan: KYORITSU.
[17] Fluke Corporation. (2003). Fluke 179 True RMS Digital Multitester Multitesters: Instruction manual. Washington: Fluke.
[18] Fluke Corporation. (2010). 381 Remote Display True-RMS AC/DC Clamp Meter with iFlex™: Instruction manual. Washington: Fluke.
[19] Qingdao Hantek Electronic Co., Ltd. (2006). Hantek 365F USB digital data logger recorder multimeter voltage and current: Instruction manual. China: Hantek.
[20] Extech Instruments Corporation. (2013). True RMS AC Voltage/Current Datalogger DL 150: Instruction manual. Nashua: Extech.
[21] Hioki E.E. Corporation. (2013). Hioki LR5043-20 Single Channel Voltage Logger: Instruction manual. Japan: Hioki.
[22] Onset Computer Corporation. (2018). EG4115 Core - 15 Input Meter Data Logger: Instruction manual. United States: Onset.
[23] Onset Computer Corporation. (2013). T-VER-E50B2 Compact Power and Energy Meter: Instruction manual. United States: Onset.
[24] Extech Instruments Corporation. (2010). Extech 380803 True RMS Power Analyzer/Appliance Tester and Datalogger: Instruction manual. Nashua: Extech.
[25] GRAPHTEC Corporation. (2018). Graphtec GL240 10 channel analog: Instruction manual. Japan: Graphtec.
[26] Lutron Electronics Co., Inc. (2016). Lutron DW-6095 power analyzer real-time data logger: Instruction manual. New York: Lutron.
[27] Chauvin Arnoux, Inc. d.b.a. AEMC Instruments. (2019). AEMC DL-1080 Data Logger: Instruction manual. United State: AEMC.
[28] Hioki E.E. Corporation. (2018). Hioki PW 3365-20 Clamp Power Logger: Instruction manual. Japan: Hioki.
[29] Fluke Corporation. (2016). Fluke 2638A/05 Hydra Series III 22-Channel Data Acquisition System: Instruction manual. Washington: Fluke.
[30] Fluke Corporation. (2016). Fluke 3540 FC KIT Three-Phase Power Monitor: Instruction manual. Washington: Fluke
[31] Fluke Corporation. (2006). Fluke 1735 Three-Phase Power Logger: Instruction manual. Washington: Fluke.
[32] Hioki E.E. Corporation. (2015). Hioki LR8400-93 PV Power Verifier: Instruction manual. Japan: Hioki.
[33] Fluke Corporation. (2006). Fluke 435-II Three-Phase Power Quality And Energy Analyzer: Instruction manual. Washington: Fluke.
[34] Hioki E.E. Corporation. (2015). Memory Hicorder MR8827: Instruction manual. Japan: Hioki.
[35] Hioki E.E. Corporation. (2015). Memory Hicorder MR8740: Instruction manual. Japan: Hioki.
[36] Hanson, D. (2005). Ce marking, product standards, and world trade. Retrieved November 27, 2019. from https://books.google.co.id/.
[37] Medi, N. (2019, June 28). What are Electronic Products Certifications? - Meee Services. Retrieved October 12, 2019, from https://www.meee-services.com/electronic-product-certifications/.
[38] RoHS Guide. (n.d.). RoHS 10 Restricted Substances. Retrieved November 24, 2019, from https://www.rohsguide.com.
[39] BSN Badan Standardisasi. (2017, December 11). Tentang SNI. Retrieved November 2, 2019, from http://bsn.go.id.
[40] BSN Badan Standardisasi Nasional. (2018, December 5). Pemberlakuan Wajib SNI Peralatan Listrik, Lindungi Konsumen. Retrieved December 18, 2019, from http://www.bsn.go.id.
[41] Humas BSN (2018, Desember 5). Pemberlakuan Wajib SNI Peralatan Listrik, Lindungi Konsumen [Online]. Available www.bsn.go.id
[42] Robinson, P. W. (2016). Regulatory compliance mark: For Australia/New Zealand electrical and electronic equipment. 2016 IEEE Symposium on Product Compliance Engineering (ISPCE), 1–27. DOI: 10.1109/ispce.2016.7492843
[43] Rheinland, T. Ü. V. (n.d.). Electric and Electronic Components. Retrieved November 1, 2019, from https://www.tuv.com.
Published
2020-02-29
How to Cite
WIBAWA, Agus Satrya; KUMARA, I Nyoman Satya; SUKERAYASA, I Wayan. Instruments and Data Logger for Measuring Electrical Parameters: Indonesian Market Review and Research Direction. Journal of Electrical, Electronics and Informatics, [S.l.], v. 4, n. 1, p. 20-29, feb. 2020. ISSN 2622-0393. Available at: <https://ojs.unud.ac.id/index.php/jeei/article/view/57453>. Date accessed: 25 nov. 2024. doi: https://doi.org/10.24843/JEEI.2020.v04.i01.p04.

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