A 180-Vpp Integrated Linear Amplifier for Ultrasonic Imaging Applications in a High-Voltage CMOS SOI Technology.
IEEE Trans. on Circuits and Systems(2015)
摘要
This brief presents a monolithically integrated fully differential linear HV amplifier as the driver of an ultrasonic transducer. The linear amplifier is capable of transmitting HV arbitrary signals with a very low harmonic distortion, which is suitable for tissue harmonic imaging and other ultrasonic modes for enhanced imaging quality. The amplifier is designed and implemented using the 0.7-μm CMOS silicon-on-insulator process with 120-V devices. The amplifier, when driving a load of 300 pF in parallel with 100 Ω, is capable of transmitting a sine-wave signal with a frequency of up to 4.4 MHz, a maximum signal swing of 180 Vpp, and a second-order harmonic distortion (HD2) of -56 dBc but only dissipating an average power of 62 mW with a 0.1% duty cycle.
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关键词
second-order harmonic distortion (HD2),voltage swing,sine-wave signal,voltage 180 v,thd,integrated linear amplifier,ultrasonic imaging,harmonic distortion,ultrasonic transducer,enhanced imaging quality,tissue harmonic imaging,tissue harmonic imaging (THI),high-voltage cmos soi technology,size 0.7 mum,cmos analogue integrated circuits,voltage 120 v,linear amplifier,capacitance 300 pf,driver,silicon-on-insulator,second-order harmonic distortion (hd2),ultrasonic imaging applications,transmitting hv arbitrary signals,integrated circuit design,differential amplifiers,second-order harmonic distortion,high voltage (hv),resistance 100 ohm,ultrasonic transducers,hd2,monolithically integrated fully differential linear hv amplifier,tissue harmonic imaging (thi),high voltage,High voltage (HV),total harmonic distortion (thd),total harmonic distortion (THD),duty cycle
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