Title :
Study on radio-frequency damage effects of electro-explosive device
Author :
Li Guilan ; Zhang Feng ; Ma Weiyu
Author_Institution :
Lab. of Electromagn. Environ. Effect, Beijing Inst. of Radio Metrol. & Meas., Beijing, China
Abstract :
The radio-frequency damage effects of electro-explosive device are considered based on the transmission line model and the non-Fourier heat conduction model. The detector voltage method for high frequency induced voltage and optic radiation method for transient temperature rise are considered. The useful conclusions that the detector voltage reaches maximum when the length of pin is an integral number of the half wave length and the temperature rise process of electro-explosive device is a strong-transient-state heat conduction process when the radio-frequency damage power is high are drawn by means of numerical calculation and the experiment. The results are useful for radio-frequency damage effect analysis of electro-explosive device.
Keywords :
UHF detectors; electromagnetic devices; explosives; heat conduction; infrared detectors; transmission line theory; detector voltage method; electro-explosive device; half wave length; high frequency induced voltage; infrared sensor; integral number; nonFourier heat conduction model; optic radiation method; radio-frequency damage effect analysis; strong-transient-state heat conduction process; transient temperature rise process; transmission line model; Detectors; Heating; Radio frequency; Temperature measurement; Transient analysis; Transmission line measurements; Voltage measurement; detector voltage; electro-explosive device; radio-frequency damage effects; temperature rise;
Conference_Titel :
Electromagnetic Compatibility (EMC Europe), 2014 International Symposium on
Conference_Location :
Gothenburg
DOI :
10.1109/EMCEurope.2014.6931045
