Yonan Prihhapso scite author profile

Yonan Prihhapso

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Resources for Human Development, National Nuclear Energy Agency of Indonesia

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Pengukuran Nilai Colorimetry Lampu Penerangan Jalan Umum (Pju) Led Menggunakan Array-Spectroradiometer

Prihhapso¹,

Farhania²,

Suryani³

et al. 2018

j. standard.

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AbstrakLampu jalan LED memiliki nilai efikasi yang lebih tinggi dibandingkan lampu jalan tradisional. Konsekuensi dari efikasi yang tinggi pada suatu lampu adalah kualitas color rendering yang rendah. Tujuan dari penelitian ini adalah untuk mengukur nilai colorimetrylampu penerangan jalan umum LED. Untuk mengukur kualitas warna dari suatu sumber cahaya digunakan array spectroradiometer. Selain portabilitas dan kecepatan dalam pengukuran spectral, instrument ini memiliki keterbatasan yang harus dikarakterisasi. Salah satunya adalah respon spektral yang memiliki dampak yang cukup besar dalam pengukuran karena itu membutuhkan nilai koreksi dalam penggunaannya. Array spectroradiometer dikalibrasi terhadap lampu spectral irradiant standar untuk pengukuran magnitude dan lampu atomic untuk pengukuran akurasi panjang gelombang. Metode analisis digunakan untuk mengimbangi besarnya pengukuran spectral dari array spectroradiometer yang disebabkan oleh pergeseran spectral. Factor koreksi selanjutnya dikoreksi terhadap beberapa illuminan standard dan digunakan untuk perhitungan rendering index dari lampu jalan LED. Lampu jalan LED dengan nilai efikasi tinggi dapat menghasilkan rendering index pada level 80, tiga kali lebih besar dibandingkan lampu jalan tradisional (HPS) yang hanya mampu menghasilkan rendering index pada level 25. Pada penelitian selanjutnya, dapat dilakukan pengukuran terkait dengan reproduktivitas pengukuran array spektroradiometer yang dapat berdampak pada kualitas pengukuran color rendering. Kata kunci: Color Rendering Index (CRI), lampu penerangan jalan umum LED, array spektroradiometer. AbstractLED Street light considered to have high efficacy compared to traditional street light. However there is a trade of from higher efficacy, which led to poor quality of color rendering. This research aims to measure the colorimetry value of LED street light. Array spectroradiometer commonly used to asses color quality of a light source. Aside from its portability and the speed of spectral measurement, this instruments has limitation that needs to be characterized. One that might have great effect is its spectral response, therefore correction needs to be applied. The array spectroradiometer calibrated against standard spectral irradiance lamp for its magnitude and atomic lamps for its wavelength accuracy. Analytical method applied to compensate the magnitude of spectral measurement of array spectroradiometer due to the spectral shift. The correction factor then validated against several standard illuminant, and applied to calculate rendering index of the LED Street light. With higher efficacy, LED Street light capable to produce rendering index in the level of 80 almost three times larger than traditional street light (HPS) that only can produce rendering index in the level of 25. Future study regarding the measurement reproducibility of an array spectrodiometer is needed, since this problem will affect the measurement quality of color rendering.

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Development of holmium oxide glass calibration system measured using mathematical modelling

Prihhapso¹,

Achmadi²,

Suryani³

et al. 2021

J. Phys.: Conf. Ser.

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Holmium oxide glass filter has known to exhibit persistence absorption lines across the visible region. Due to these properties, a holmium oxide glass filter is used as a reference standard to calibrate the wavelength accuracy of a spectrophotometer. In this research, a system consists of a double-monochromator and a photomultiplier tube will be evaluated. Mathematical modelling is used to calculate the true value of the absorption lines of the holmium glass filter to compensate for the low optical resolution of the double-monochromator system. Measurement results are validated by comparison with the single-monochromator-order shorting filter system which has higher optical resolving power. Wavelength differences between double-monochromator and single-monochromator systems are better than 0.1% and within the expanded uncertainty of 0.32 nm. Therefore, the double-monochromator system is suitable to provide measurement traceability for the calibration of holmium oxide glass filters.

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Accuracy and uncertainty for the application of grand canonical ensemble in determining humidity

Tistomo

Munir

Suprijadi

et al. 2022

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Development of color source system using selective-transmitting material for display devices calibration in Indonesia

Prihhapso¹,

Achmadi²,

Nelfyenny³

et al. 2022

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Simulasi Monte Carlo Menggunakan Pemrograman R Untuk Menentukan Koreksi Ketidakcocokan Pada Fotometer Berdasarkan Indeks Ketidakcocokan Lazim

Prihhapso¹,

Nelfyenny²,

Suryani³

et al. 2022

instrum.

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Ketidakcocokan (mismatch) antara lampu ukur ketika sebuah fotometer atau lux meter dikalibrasi dengan lampu sumber ketika fotometer digunakan dalam pengukuran dapat menyebab eror atau kesalahan. Saat ini belum ada metode umum yang dapat digunakan untuk mengoreksi kesalahan ini. Metode yang direkomendasikan oleh Komisi Internasional untuk Pencahayaan (Commission Internationale de l'Eclairage -CIE) cenderung rumit dan hanya dapat diimplementasikan pada lembaga metrologi nasional saja. Dalam penelitian ini dikemukakan metode untuk mengoreksi kesalahan ketidakcocokan menggunakan korelasi antara nilai indeks ketidakcocokan lazim (𝑓 ) dengan nilai faktor koreksi ketidakcocokan spektral (𝐹 * ). Nilai 𝑓 dan 𝐹 * dihitung dari profil-profil responsivitas spektral fotometer sampel yang banyak digunakan di Indonesia. Berdasarkan profil tersebut dibuat model simulasi Monte Carlo untuk mendapatkan sebaran nilai 𝐹 * pada berbagai nilai indeks𝑓 . Menggunakan 2 × 10pengacakan dan 20 kali perulangan, didapatkan nilai ketidakpastian dari komponen faktor koreksi ketidakcocokan spectral sebesar 0,002%, 0,044% dan 0,203% untuk sumber cahaya berupa lampu pijar (tungsten halogen), lampu fluorescent dan lampu LED. Kontribusi komponen 𝐹 * terhadap ketidakpastian pengukuran tingkat pencahayaan adalah sebesar 0,011% untuk lampu pijar (tungsten halogen), 0,2% untuk lampu fluorescent dan 2,5% untuk lampu LED.

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Yonan Prihhapso

Pengukuran Nilai Colorimetry Lampu Penerangan Jalan Umum (Pju) Led Menggunakan Array-Spectroradiometer

Development of holmium oxide glass calibration system measured using mathematical modelling

Accuracy and uncertainty for the application of grand canonical ensemble in determining humidity

Development of color source system using selective-transmitting material for display devices calibration in Indonesia

Simulasi Monte Carlo Menggunakan Pemrograman R Untuk Menentukan Koreksi Ketidakcocokan Pada Fotometer Berdasarkan Indeks Ketidakcocokan Lazim

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