会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Carrier reproduction circuit
    • 载波再现电路
    • US06700940B1
    • 2004-03-02
    • US09581212
    • 2000-08-15
    • Hisakazu KatohAkinori HashimotoTomohiro SaitoFumiaki MinematsuKenichi ShiraishiAkihiro HoriiShoji MatsudaSoichi Shinjo
    • Hisakazu KatohAkinori HashimotoTomohiro SaitoFumiaki MinematsuKenichi ShiraishiAkihiro HoriiShoji MatsudaSoichi Shinjo
    • H04B1700
    • H04L27/2273
    • A carrier reproduction circuit which can perform stable carrier reproduction even when reception takes place with low C/N values is provided. The reception phase of the demodulated known-pattern reception signal is detected with a frame synchronizing timing circuit (4), and based on the detected reception phase, either the phase difference table of absolute phase having one convergence point or the phase difference table of the phase rotated from the absolute phase by 180°, which are included in a carrier reproduction phase difference detecting circuit (8), is selected, and from the selected phase difference table the output based on the phase difference between the phase obtained from the signal point position of the reception signal and the phase convergence point is obtained, and thus carrier reproduction is implemented by undergoing the reproduced carrier frequency control via an AFC circuit (10) so that the phase obtained from the signal point position coincides with the phase convergence point.
    • 提供即使在以低C / N值进行接收的情况下也能够执行稳定的载波再现的载波再现电路。 利用帧同步定时电路(4)检测解调的已知模式接收信号的接收相位,并且基于检测到的接收相位,具有一个收敛点的绝对相位的相位差表或者具有一个收敛点的相位差表 选择包含在载波再现相位差检测电路(8)中的从绝对相位旋转180°的相位,并且从所选择的相位差表中选择基于从信号点获得的相位之间的相位差的输出 获得接收信号和相位收敛点的位置,从而通过经由AFC电路(10)经历再现的载波频率控制来实现载波再现,使得从信号点位置获得的相位与相位收敛点一致。
    • 2. 发明授权
    • Hierarchical transmission digital demodulator
    • 分层传输数字解调器
    • US06678336B1
    • 2004-01-13
    • US09554669
    • 2000-08-09
    • Hisakazu KatohAkinori HashimotoKenichi ShiraishiAkihiro HoriiShoji Matsuda
    • Hisakazu KatohAkinori HashimotoKenichi ShiraishiAkihiro HoriiShoji Matsuda
    • H04L2706
    • H04L27/2332H04L2027/003H04L2027/0057H04L2027/0081H04L2027/0095
    • A hierarchical transmission digital demodulator capable of stable sync capture and stable demodulation through setting of a demodulation operation in accordance with a reception C/N value. A CNR measuring circuit receives a demodulation output from an arithmetic circuit and measures a reception C/N value. During a period until sync is captured, a carrier is reproduced in accordance with the demodulation output that a modulated wave in a header section and a modulated wave of burst symbol signal. After sync is captured, at an intermediate C/N value the carrier is reproduced in accordance with the demodulation output of the header section, burst symbol signal and QPSK signal and in accordance with output from a logical gate circuit, and at high and low C/N values the carrier is reproduced by setting high a carrier reproduction loop gain of a gain control circuit in accordance with a signal from the logical gate circuit.
    • 一种能够通过根据接收C / N值设置解调操作来稳定同步捕获和稳定解调的分级发送数字解调器。 CNR测量电路从运算电路接收解调输出并测量接收C / N值。 在捕获同步之前的一段时间内,根据解调输出再现载波,以便在报头部分中的调制波和突发符号信号的调制波。 在捕获同步之后,以中间C / N值,根据标题部分的解调输出,突发符号信号和QPSK信号,并根据逻辑门电路的输出,以及在高和低C / N值通过根据来自逻辑门​​电路的信号设置增益控制电路的载波再生环路增益来重放载波。
    • 5. 发明授权
    • BS digital broadcast receiver
    • BS数字广播接收机
    • US06714596B1
    • 2004-03-30
    • US09582228
    • 2000-07-21
    • Kenichi ShiraishiAkihiro HoriiSoichi ShinjoShoji MatsudaRyuichi Okazaki
    • Kenichi ShiraishiAkihiro HoriiSoichi ShinjoShoji MatsudaRyuichi Okazaki
    • H04L2302
    • H04L1/0052H04L1/0054H04L1/006H04L27/2332H04L2027/0032H04L2027/0057
    • A BS digital broadcast receiver having no 8PSK-demapper and a less number of delay circuits for Trellis encoding. A QPSK baseband signal based upon a reception signal point position of an absolute-phased baseband demodulation signal is Viterbi-decoded by a Viterbi-decoder 6. An output of the Viterbi-decoder is convolution-reencoded by a convolution encoder 7. Upper four bits of phase error data are searched from a phase error table 31 for carrier reproduction in accordance with a phase difference between 0 degree and a phase of a phase error detection reception signal point position. The upper four bits are delayed by delay circuits 81 to 84 by a total sum of a time taken to Viterbi-decode and a time taken to convolution-encode. The delayed outputs are demapped by a demapped value conversion circuit 9. A code TCD2 determined from the demapped output and convolution encode output is output as an MSB of a Trellis 8PSK decode output from an MSB code judging/error detecting circuit 10.
    • 没有8PSK解映射器的BS数字广播接收机和用于网格编码的较少数量的延迟电路。 基于绝对相位基带解调信号的接收信号点位置的QPSK基带信号由维特比解码器6进行维特比解码。维特比解码器的输出由卷积编码器7进行卷积重新编码。高四位 根据0度与相位误差检测接收信号点位置的相位之间的相位差,从用于载波再现的相位误差表31中搜索相位误差数据。 延迟电路81至84通过维特比解码所花费的时间和对卷积编码所花费的时间的总和来延迟高四位。 延迟的输出被去映射值转换电路9解映射。从解映射的输出和卷积编码输出确定的代码TCD2作为从MSB代码判断/错误检测电路10的格状8PSK解码输出的MSB输出。
    • 6. 发明授权
    • BS digital broadcasting receiver
    • BS数字广播接收机
    • US06993096B1
    • 2006-01-31
    • US09959267
    • 2000-04-04
    • Kenichi ShiraishiAkihiro HoriiShoji Matsuda
    • Kenichi ShiraishiAkihiro HoriiShoji Matsuda
    • H03D3/22H04L27/22
    • H04L27/2272H04L27/22H04L2027/003H04L2027/0057H04L2027/0073H04L2027/0079H04L2027/0095H04N5/4401H04N5/455H04N21/426H04N21/4382H04N21/6143
    • A BS digital broadcasting receiver which eliminates the uncertainty of an ODU's phase noise-dependent switching point when switching a receiving system. The receiver is provided with a demodulator circuit (6A) having a carrier regenerating circuit (19A) based on demodulation data in a BPSK modulation section, and with a demodulator circuit (6B) having a carrier regenerating circuit (19B) based on demodulation data in each time-division modulation section, wherein, when a lock for carriers regenerated by the carrier regenerating circuit (19A) is maintained and carriers regenerated by the carrier regenerating circuit (19B) is locked, demodulation data, in the BPSK demodulation section and a QPSK demodulation section, output from the demodulator circuit (6A) and 8-PSK-modulated demodulation data output from the demodulator circuit (6B) are selected by a selector (7) for outputting.
    • 一种BS数字广播接收机,用于在切换接收系统时消除ODU相位噪声相关切换点的不确定性。 接收机具有基于BPSK调制部分中的解调数据的具有载波再生电路(19A)的解调器电路(6A),并且具有基于载波再生电路(19B)的解调器电路(6B) 在每个时分调制部分中的解调数据上,其中当保持由载波再生电路(19A)再生的载波的锁定并且由载波再生电路(19B)再生的载波被锁定时,解调数据在 由解调器电路(6A)输出的BPSK解调部分和QPSK解调部分和从解调器电路(6B)输出的8-PSK调制解调数据由选择器(7)选择输出。
    • 7. 发明授权
    • Demodulator of receiver
    • 接收机解调器
    • US06697440B1
    • 2004-02-24
    • US09622062
    • 2000-08-25
    • Kenichi ShiraishiSoichi ShinjoAkihiro HoriiShoji Matsuda
    • Kenichi ShiraishiSoichi ShinjoAkihiro HoriiShoji Matsuda
    • H03D322
    • H04L27/2273H04L7/04H04L2027/003H04L2027/0057H04L2027/0067H04L2027/0095
    • A small scale circuit can be realized. A timing circuit 30 detects a burst symbol signal period from outputs I and Q of a demodulating circuit 1A for orthogonally detecting a received signal obtained by time-multiplexing digital signals by BPSK, QPSK, and 8PSK modulation. A pattern regeneration circuit 40 outputs the same PN code pattern as on a transmission side. Inverting circuits 13 and 14 output I, Q as RI, RQ for a bit ‘0’ of a PN code pattern, and −I, −Q as RI, RQ for a bit ‘1’. A phase error table 15A contains a phase error between the phase of a received signal point as an output of the inverting circuits 13 and 14 and an absolute phase only for a first quadrant of RI, RQ. A phase error detecting processing circuit 16A reads the phase error data corresponding to the absolute value of RI, RQ, and adjusts the data into the data depending on the current quadrant of the RI, RQ. A carrier regeneration circuit 10A amends the phase of a reference carrier for use in orthogonal detection such that an adjusted phase error data indicates zero.
    • 可以实现小规模电路。 定时电路30从解调电路1A的输出I和Q检测突发符号信号周期,以正交检测通过BPSK,QPSK和8PSK调制对数字信号进行时分复用而获得的接收信号。 模式再生电路40输出与发送侧相同的PN码模式。 反相电路13和14输出I,Q作为RI,RQ表示PN码模式的位0,-I,-Q作为RI,RQ表示位1。 相位误差表15A包含作为反相电路13和14的输出的接收信号点的相位与仅针对RI,RQ的第一象限的绝对相位之间的相位误差。 相位误差检测处理电路16A读取对应于RI绝对值RQ的相位误差数据,并且根据RI的当前象限RQ将数据调整为数据。 载波再生电路10A修正用于正交检测的参考载波的相位,使得调整的相位误差数据表示为零。
    • 10. 发明授权
    • Apparatus and method for receiving BS digital broadcast
    • 用于接收BS数字广播的装置和方法
    • US07221719B2
    • 2007-05-22
    • US10031085
    • 2001-05-17
    • Kenichi ShiraishiShoji MatsudaAkihiro Horii
    • Kenichi ShiraishiShoji MatsudaAkihiro Horii
    • H04L27/14
    • H04L27/2273H04L27/0012H04L2027/0053H04L2027/0057H04L2027/0067H04L2027/0069
    • An improved apparatus for receiving BS digital broadcast is disclosed. The apparatus for receiving BS digital broadcast of the present invention has first to third filters and a selective complex calculator circuit.Each of the first to third filters 18 to 20 identifies the modulation technique applied to the received signal, by the modulation identification signals A0, A1 received from a timing generator circuit 25, and filters a phase error signal PED according to the identified modulation technique. The selective complex calculator circuit 21 shifts the phase of a signal point indicated by an I signal ADI1 and a Q signal ADQ1 absolute-phased by an absolute-phasing section 14, by a phase corresponding to the phase error signal filtered by the first to third filters 18 to 20. At this moment, the selective complex calculator circuit 21 selects the phase error signal corresponding to the modulation technique identified from the modulation identification signals A0, A1 received from the timing generator circuit 25. Consequently, in the burst receiving, it is possible to reduce the effect on the error rate because of the signal noise of the ODU to a degree equal to that in the continuous receiving.
    • 公开了一种用于接收BS数字广播的改进的装置。 本发明的用于接收BS数字广播的装置具有第一至第三滤波器和选择性复合计算器电路。 第一至第三滤波器18至20中的每一个通过从定时发生器电路25接收的调制识别信号A 0,A 1识别应用于接收信号的调制技术,并根据所识别的调制对相位误差信号PED进行滤波 技术。 选择复合计算器电路21将由由绝对定相部分14绝对相位的I信号ADI 1和Q信号ADQ 1指示的信号点的相位移位相应于由第一 到第三过滤器18至20。 此时,选择性复数计算器电路21选择与从定时发生器电路25接收的调制识别信号A 0,A 1识别的调制技术相对应的相位误差信号。 因此,在脉冲串接收中,由于ODU的信号噪声等于连续接收的信号噪声,可以降低对误码率的影响。