隨著無線通訊技術的進步,5G已經開始蓬勃發展,在物聯網與車用電子甚至是遠端手術等,對於傳輸速度以及資料量的需求越來越高。在本論文中,使用高傳輸速度與高資料量的收發機模組,透過多路並行資料傳遞的方式,實現寬頻的OFDM訊號,並將其應用毫米波段進行傳輸。 在硬體中以Verilog硬體描述語言設計,收發機模組參考LTE DownLink架構下的OFDM調變系統,搭配DVB-T架構之通道邊解碼規格,進行修改與擴充。 開發傳輸速度與資料量高的可靠收發機模組,並在RFSoC平台實現,達成毫米波段之傳發,最後比較其在中頻與毫米波段的通道響應影響。 ;With the advancement of wireless communication technology, 5G has begun to flourish. In the Internet of Things, automotive electronics and even remote surgery, the demand for transmission speed and data quantity is getting higher and higher. In this paper, a transceiver module with large data quantity and high transmission speed is used to realize broadband OFDM signal through multiple parallel data transmission, and apply it to millimeter wave band for transmission. Designed with Verilog hardware description language in the hardware. The transceiver module refers to the OFDM modulation system under the LTE DownLink architecture along with the channel side decoding specification under the DVB-T architecture to modify and expand. Develop the reliable transceiver module with high transmission speed and large data quantity , and finally realized it on the RFSoC platform to achieve transmission in the millimeter wave band.Eventually compare its channel response effects in the IF and millimeter wave bands.