New ContributorCustom Circuit board Analog to Digital FPGA
I have a case number: 04777400
I am looking for a development partner for a custom board to acquire ultrasound imaging data with the following specifications:
Analog (ultra low noise): Preamp 20 dB with; variable input impedance, ~ 100W-20kW; Analog front-end Amp 50 dB, 0.1-15 MHz; with possibility to change input impedance from 50 Ohm to 50 kOhm
Digital: FPGA (Intel); 128-1024 Ch; ADC 14 bit, ±1.25V; up to 65 MHz smp/sec; Dynamic range 12 bit min
Ultrasound Transducers: 128 elements (with possible utilization of pMUT arrays with 4096 elements or even 2-3 pMUT arrays in one system).; Transducer frequency: 0.1-10 MHz (Opto-Acoustic mode), 1-15 MHz (Ultrasound Mode); Gain control, TGC 5-10 sliders 60 dB, overall gain control; A-line = 8096 samples min at 65 MHz sampling rate; Number of independent T/R channels equals to number of transducers; Imaging modes: B and M ultrasound, color Doppler, optoacoustic, differential functional imaging; Acoustic Power control: slider, 64 steps minimum. +-5…+-65V
Control Software (Firmware): OS - Windows 64bit or Linux or suggest embedded software OS to control; Possibly create cloud-based firmware for additional software security – downloads to RAM for each use; Possibility to store and transfer RF post-beamformed ultrasound and optoacoustic RF signal channel data to the PC; Develop graphical user interface
