A numerically efficient way to evaluate SAR deposition and temperature elevation inside the head of a user of a cellular phone equipped with a dual-band helical antenna is proposed. The results obtained for a given radiated power show that, although the maximum SAR value as averaged over 1 g in the brain is higher at 900 MHz than at 1800 MHz, the maximum temperature increase in the brain is higher at 1800 MHz. In fact, at 1800 MHz the thermal diffusion process moves heat from the external layers, where SAR values higher than those obtained at 900 MHz are present, toward the brain.
Power absorption and temperature elevations induced in the human head by dual-band phones / Bernardi, Paolo Italo; Cavagnaro, Marta; Pisa, Stefano; Piuzzi, Emanuele. - 3:(2001), pp. 151-154. (Intervento presentato al convegno IEEE MTT-S International Microwave Symposium tenutosi a PHOENIX, AZ nel MAY 20-25, 2001) [10.1109/mwsym.2001.966860].
Power absorption and temperature elevations induced in the human head by dual-band phones
BERNARDI, Paolo Italo;CAVAGNARO, Marta;PISA, Stefano;PIUZZI, Emanuele
2001
Abstract
A numerically efficient way to evaluate SAR deposition and temperature elevation inside the head of a user of a cellular phone equipped with a dual-band helical antenna is proposed. The results obtained for a given radiated power show that, although the maximum SAR value as averaged over 1 g in the brain is higher at 900 MHz than at 1800 MHz, the maximum temperature increase in the brain is higher at 1800 MHz. In fact, at 1800 MHz the thermal diffusion process moves heat from the external layers, where SAR values higher than those obtained at 900 MHz are present, toward the brain.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.