1. Microelectronics mounted on a piezoelectric transducer: Method, simulations, and measurements
- Author
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Johansson, Jonny and Delsing, Jerker
- Subjects
- *
PIEZOELECTRIC devices , *ELECTRIC equipment , *MEDICAL imaging systems , *ELECTRONICS - Abstract
Abstract: This paper describes the design of a highly integrated ultrasound sensor where the piezoelectric ceramic transducer is used as the carrier for the driver electronics. Intended as one part in a complete portable, battery operated ultrasound sensor system, focus has been to achieve small size and low power consumption. An optimized ASIC driver stage is mounted directly on the piezoelectric transducer and connected using wire bond technology. The absence of wiring between driver and transducer provides excellent pulse control possibilities and eliminates the need for broad band matching networks. Estimates of the sensor power consumption are made based on the capacitive behavior of the piezoelectric transducer. System behavior and power consumption are simulated using SPICE models of the ultrasound transducer together with transistor level modelling of the driver stage. Measurements and simulations are presented of system power consumption and echo energy in a pulse echo setup. It is shown that the power consumption varies with the excitation pulse width, which also affects the received ultrasound energy in a pulse echo setup. The measured power consumption for a 16mm diameter 4.4MHz piezoelectric transducer varies between 95μW and 130μW at a repetition frequency of 1kHz. As a lower repetition frequency gives a linearly lower power consumption, very long battery operating times can be achieved. The measured results come very close to simulations as well as estimated ideal minimum power consumption. [Copyright &y& Elsevier]
- Published
- 2006
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