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QPSK baseband recovery system resistant to large frequency offset

A recovery system and baseband technology, applied in the direction of transmission system, digital transmission system, modulated carrier system, etc., can solve the problems of large error, slow carrier lock, unable to lock, etc., to achieve the goal of increasing speed, increasing maximum, and reducing calculation amount Effect

Active Publication Date: 2019-02-05
XIDIAN UNIV
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Problems solved by technology

[0006] The purpose of the present invention is to overcome the above-mentioned defects in the prior art, and propose a QPSK baseband recovery system that resists large frequency offsets, which eliminates the slow carrier lock, large error, or even failure to lock when the frequency offset is large in the prior art defects, improve the speed of baseband recovery and reduce the bit error rate

Method used

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  • QPSK baseband recovery system resistant to large frequency offset
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  • QPSK baseband recovery system resistant to large frequency offset

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Embodiment Construction

[0040] The present invention will be further described in detail below in conjunction with the drawings and specific embodiments.

[0041] Reference figure 2 , A QPSK baseband recovery system against large frequency deviation, including data sampling module 1, carrier rate pre-estimation module 2, switch selection module 3, low-speed baseband recovery module 4, carrier lock detection module 5, high-speed baseband recovery module 6 and timing Synchronous decision output module 7, where:

[0042] The data sampling module 1 is used to receive the modulated signal, sample the modulated signal, and output the sampled data INDATA to the carrier rate pre-estimation module 2 and the switch selection module 3.

[0043] Carrier rate pre-estimation module 2, its structure is as follows image 3 As shown, it includes a carrier prediction sequence storage module 21, N identical low-pass filters 22, and a power calculation unit 23, where:

[0044] The carrier prediction sequence storage module 21 ...

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Abstract

The invention proposes a QPSK baseband recovery system resistant to a large frequency offset, and is used for solving the technical problem that a carrier is locked slowly or cannot be locked when thefrequency offset of an existing system is large. The QPSK baseband recovery system comprises a data sampling module, a carrier rate pre-estimation module, a switch selection module, a low-speed baseband recovery module, a carrier locking detection module, a high-speed baseband recovery module and a timing synchronization judgment output module; the data sampling module receives and samples a modulation signal; the carrier rate pre-estimation module roughly estimates the modulation signal carrier frequency; the low-speed baseband recovery module based on a closed loop and the high-speed baseband recovery module based on an open loop perform baseband data recovery on the sampled data under the control of the switch selection module; the carrier locking detection module detects whether a local carrier of the low-speed baseband recovery module is locked or not; and the timing synchronization decision output module performs timing synchronization and hard decision on the recovered basebanddata to obtain final demodulation data. According to the QPSK baseband recovery system resistant to the large frequency offset provided by the invention, the baseband recovery speed is high and the bit error rate is low.

Description

Technical field [0001] The present invention belongs to the technical field of digital communication, and relates to a QPSK baseband recovery system, in particular to a QPSK baseband recovery system against large frequency deviation, which can be used in a QPSK modulation and demodulation system. technical background [0002] Digital communication technology has become the mainstream of contemporary communication technology. In digital communication systems, digital modulation and demodulation is an indispensable part and an important means of communication signal transmission technology. [0003] Digital modulation is a process that uses digital signal processing to load useful baseband signals onto a higher frequency carrier signal. Digital demodulation is the inverse process of digital modulation. It uses digital signal processing to extract the original useful baseband signal from the modulated signal. The digital modulation methods include amplitude keying (ASK) and frequency ...

Claims

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Application Information

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IPC IPC(8): H04L27/227H04L27/00
CPCH04L27/0014H04L27/2275H04L2027/0026
Inventor 王海刘岩王志豪郑东莉张皓迪俞中伟
Owner XIDIAN UNIV
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