Abstract:

Studies in the field of biomedicine are one of the substantial study areas that have recently taken place in the literature. Studies in these research areas are based on the processing of vital sign signals. This paper presents the design and implementation of two arrhythmic (2nd degree AV-block type-1 and 2nd degree AV-block type-2) ECG signs to be used in FPGA with Xilinx-Vivado software utilizing VHDL. Numeric ECG signs were taken as reference, then confront with values related to the design of FPGA based ECG sign. Design utilized in the implementation and test outcomes got from the work have been introduced. Implemented ECG signs have been synthesized for Zynq-7000 TC7Z020 FPGA and tracked using oscilloscope using 14-channel AN9767 DA module. After Place&Route, FPGA chip statistics were introduced. The maximum working frequencies of 2nd degree AV Block Type-1 signs and 2nd degree AV Block Type-2 signs in FPGA have been obtained as 651.827 MHz and 663.504 MHz, respectively. Maximum MSE rates from the FPGA-based ECG sign implementation for 2nd degree AV Block Type-1 and 2nd degree AV Block Type-2 signs have been obtained as 2.0011E-03 and 1.2754E-04, respectively. This paper demonstrates that the hardware designed FPGA-based ECG sign production system can be implemented on FPGA and can be utilized snugly in biomedical calibration applications. This paper demonstrates that FPGA-based ECG signal generation system, which is implemented as hardware, can be designed using FPGA chips and can be safely used in biomedicine areas.

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