Use of a BPSK demodulator for a QPSK signal with identical I & Q sequences except small time misalignments

MILCOM 92 Conference Record Pub Date : 1992-10-11 DOI:10.1109/MILCOM.1992.243992

H.M. Kwon

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Abstract

The possibility of using existing QPSK (quadrature phase shift keying) transmitter design and the BPSK (binary phase shift keying) demodulator with Costas carrier recovery at the White Sands Ground Terminal was studied for the space station Freedom Ku-band downlink at 50 Mb/s data rate. To generate the QPSK signal, the in-phase (I)-channel takes the data bit sequence and the quadrature-phase (Q)-channel takes the copy of the data sequence with implementation time delay t/sub 0/. The bit error probability (BEP) degradation due to time misalignment t/sub 0/ and phase jitter at the Costas loop in a BPSK demodulation for the QPSK signal was derived. It was observed that the BEP difference between two systems, the BPSK signal with BPSK demodulation and the QPSK signal with BPSK demodulation, is small when t/sub 0/ is less than 10% of the data bit time interval and the closed-loop bandwidth is less than 1% of the data rate. However, it was observed that the degradation in the BEP increases and gets worse for time misalignment t/sub 0/ larger than 10% of the bit time interval even when closed-loop bandwidth is small, such as 1% of the data rate.<>

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使用BPSK解调器的QPSK信号具有相同的I和Q序列，除了小的时间失调

研究了在白沙地面接收站采用现有的QPSK(正交相移键控)发射机设计和具有Costas载波恢复的BPSK(二进制相移键控)解调器在50 Mb/s数据速率下用于空间站自由ku波段下行链路的可能性。为了产生QPSK信号，同相(I)通道获取数据位序列，正交相(Q)通道获取数据序列的副本，实现时延为t/sub 0/。推导了QPSK信号在BPSK解调时Costas环路上由于时间失调t/sub 0/和相位抖动导致的误码率(BEP)下降。观察到，当t/sub 0/小于数据位时间间隔的10%，且闭环带宽小于数据速率的1%时，BPSK解调后的BPSK信号与BPSK解调后的QPSK信号的BEP差很小。然而，我们观察到，即使闭环带宽很小，例如数据速率的1%，当时间偏差t/sub 0/大于比特时间间隔的10%时，BEP的退化也会增加，并且会变得更糟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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MILCOM 92 Conference Record

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