ADI introduces octal ultrasound receiver with on-chip JESD204B serial interface Analog Gadgets.

Download data sheet and view product page: Order samples: To learn more about ultrasound and medical imaging applications visit: By introducing the first octal ultrasound receiver with a multi-gigabit, serial data hyperlink, we are allowing ultrasound products designers to shrink the number of interconnects between their data converters and FPGAs, said Pat O’Doherty, vice president, Health care segment, Analog Products. By incorporating the JESD204B serial interface, the AD9671 receiver not only simplifies PCB design and debug, it allows manufacturers to continue lowering style costs and reducing program size while maintaining superb overall system efficiency. Related StoriesDoctors make use of MR-guided concentrated ultrasound to treat essential tremorResearchers develop novel technology for chronic arthritisClinical trial initiated to determine feasibility, protection of focused ultrasound to treat depressionAD9671 Octal Ultrasound Receiver with Digital I/Q Demodulation Much like ADI’s recently released AD9670 octal ultrasound receiver, the AD9671 integrates a digital I/Q demodulator, programmable-oscillator and 16-tap FIR decimation filtration system to reduce FPGA data bandwidth requirements, while additionally combining multiple channels right into a solitary CML data lane.The scholarly study results are reported in the journal NeuroImage. Michelle Voss led the analysis while a postdoctoral researcher at the University of Illinois with Beckman Institute director Arthur Kramer and kinesiology and community wellness professor Edward McAuley. Voss is an assistant professor at the University of Iowa today. ‘Our study provides the strongest evidence to date that fitness within an older adult populace can have substantial advantages to brain health when it comes to the useful connections of different parts of the brain,’ Kramer stated. There are many ways to measure brain health over the lifespan. One popular technique measures the strength of connections between different parts of the brain as the person is definitely completing an activity or during wakeful rest.