Modelling the warm-up phase of the starting processes of high-intensity discharge lamps

Lin, D.; Yan, W.T.; Hui, S.Y.R.

doi:10.1049/iet-smt.2011.0001

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B Low Pressure Discharge Lamp Model1

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Cited by 6 publications

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“…Thus, as an analogy to (6) for gas temperature, the energy balance equation for a fluorescent lamp in terms of the electron temperature can be expressed in the form of: (12) where is the elastic collision loss, is the UV radiative loss and is a coefficient. The UV radiation power loss can be expressed as: (13) where and are coefficients and is the Boltzmann's constant.…”

Section: B Low Pressure Discharge Lamp Modelmentioning

confidence: 99%

Gas Discharge Lamps Are Volatile Memristors

Lin

Hui

Chua

2014

IEEE Trans. Circuits Syst. I

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Discharge lamps can be classified as high-pressure and low-pressure lamps, which operate under different scientific principles. They have exhibited the well-known fingerprints of memristors. This paper describes the mathematical models of both of high-and low-pressure discharge lamps based on their respective physical nature and behaviors, and then explains how these models can be unified into a generalized mathematical framework that confirms their memristor characteristics. Practical and theoretical results from high-pressure and low-pressure lamps are included to illustrate their 3 fingerprints of the memristor characteristics. The results indicate that gas discharge lamps are not ideal but volatile memristors.

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Section: B Low Pressure Discharge Lamp Modelmentioning

confidence: 99%