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    • 1. 发明授权
    • Apparatus for transmitting and recording signals
    • 用于发送和记录信号的装置
    • US4783844A
    • 1988-11-08
    • US870345
    • 1986-06-04
    • Mitsuo HigashiyamaMichimasa KomatsubaraMasato Yamagata
    • Mitsuo HigashiyamaMichimasa KomatsubaraMasato Yamagata
    • H04Q7/38H04B1/40H04B7/26H04M1/00H04M1/725H04M1/727H04Q7/00
    • H04M1/727H04M1/72511
    • Apparatus for transmitting and receiving signals for use with a so-called cordless telephone, in which an audio signal and an identification code signal are transmitted and received by both the handset and base unit of the telephone and when the identification code signal is not correctly detected, as might be caused by cross-talk interference, the transmitter is disabled and a vacant communication channel is searched for and a communication channel is changed to thereby prevent a cross-talk interference. The unit that does not correctly receive the code signal immediately disables its transmitter and searches for a vacant channel and, because the code signal had been alternately transmitted and received between the two units, the other unit detects the stoppage of code signal transmission, disables its own transmitter, and then also moves to the next vacant channel to await further transmission of the code signal.
    • 用于发送和接收信号以用于所谓的无绳电话的设备,其中音频信号和识别码信号由电话的手机和基站单元发送和接收,并且当识别码信号未被正确检测到 可能由串扰干扰引起的,发射机被禁用,并且搜索空闲的通信信道,并且改变通信信道,从而防止串扰干扰。 没有正确接收代码信号的单元立即禁用其发送器并搜索空闲信道,并且由于代码信号已经在两个单元之间交替地发送和接收,所以另一个单元检测到代码信号传输的停止,禁止其 自己的发射机,然后也移动到下一个空闲信道,等待代码信号的进一步传输。
    • 2. 发明授权
    • Scrambling system for audio frequency signals
    • 音频信号加扰系统
    • US4600941A
    • 1986-07-15
    • US560957
    • 1983-12-13
    • Akira SakamotoToshihiko WakuTakeshi FukamiMasakatsu ToyoshimaMichimasa Komatsubara
    • Akira SakamotoToshihiko WakuTakeshi FukamiMasakatsu ToyoshimaMichimasa Komatsubara
    • H04K1/06H04N7/167
    • H04K1/06
    • A scrambling system for an audio frequency signal in which an audio signal is divided into blocks, each block being formed of a plurality of frames, the plurality of frames are rearranged on a timebase in a predetermined order at every block so as to be encoded and the encoded signal is re-arranged on the timebase in an original order so as to be decoded, in which there are provided a first signal processing circuit for inserting a redundant portion into a portion between adjoining frames and timebase-compressing the frames in response to the redundant portions upon encoding, a control signal generating circuit for inserting a control signal other than an audio information into the redundant portions, a control signal detecting circuit for detecting the control signal upon decoding and a second signal processing circuit for removing the redundant portions in synchronism with the detected control signal and timebase-expanding the frames in response to the redundant portions. Therefore, even when the audio signal is transmitted through a system in a transmission path having a timebase fluctuation such as a transmission path of a VTR (video tape recorder) and the like the frequency band region of which is restricted, the signal waveform is not distorted and a noise is not mixed therein so that the scrambling communication having high quality and high reliability can be presented.
    • 一种用于音频信号的音频信号的加扰系统,其中音频信号被分成多个块,每个块由多个帧形成,所述多个帧在每个块上以预定顺序在时基上重新排列,以被编码; 编码信号以原始顺序重新排列在时基上以被解码,其中提供了第一信号处理电路,用于将冗余部分插入相邻帧之间的部分,并响应于时基而压缩帧 编码后的冗余部分,用于将除音频信息之外的控制信号插入到冗余部分中的控制信号生成电路,用于在解码时检测控制信号的控制信号检测电路和用于去除冗余部分中的冗余部分的第二信号处理电路 与检测到的控制信号同步并响应于冗余部分对时基进行扩展。 因此,即使音频信号通过具有时频波动的传输路径的系统发送,例如VTR(录像机)的传输路径等,其频带区域被限制,信号波形也不会 失真并且不混合噪声,从而可以呈现具有高质量和高可靠性的扰频通信。
    • 3. 发明授权
    • Signal transmission in teaching system
    • 教学系统中的信号传输
    • US4238893A
    • 1980-12-16
    • US957348
    • 1978-11-03
    • Michimasa KomatsubaraIkuo Shimizu
    • Michimasa KomatsubaraIkuo Shimizu
    • G09B5/08G09B5/04G09B5/14G09B7/077G09B19/06
    • G09B5/14G09B5/04
    • In a teaching system having a central or master station and one or more student stations remote from the master station, there are provided, at the master station, at least one source of main signals in a first frequency band, which source may be constituted by a tape or other record player for reproducing teaching or instructional materials, a microphone or other source of audio signals from a proctor or supervisor of the teaching system, and a source of control signals which may include address signals for identifying one of the student stations and command signals for controlling various operations of the addressed student station. The audio and control signals are employed to modulate respective carriers so as to provide first and second auxiliary signals, respectively, in frequency bands which are removed from each other and from the first frequency band of the main signals, whereupon the main signals and the first and second auxiliary signals are multiplexed to provide a composite signal which, in turn, modulates a carrier of predetermined frequency suitable for being transmitted to each of the student stations.
    • 在具有中心或主站以及远离主站的一个或多个学生站的教学系统中,在主站处提供在第一频带中的至少一个主信号源,该源可以由 用于再现教学或教学材料的磁带或其他记录播放器,来自教学系统的监督者或主管的麦克风或其他音频信号源,以及可包括用于识别学生站之一的地址信号的控制信号源,以及 用于控制所述学生站的各种操作的命令信号。 使用音频和控制信号来调制相应的载波,以分别在主信号的第一频带和第二频带上分别提供第一和第二辅助信号,这些频带彼此被移除,并且主信号和第一 并且第二辅助信号被复用以提供复合信号,该复合信号进而调制适合于被发送到每个学生站的预定频率的载波。
    • 5. 发明授权
    • Tuning apparatus
    • 调音仪
    • US4298989A
    • 1981-11-03
    • US111188
    • 1980-01-11
    • Noboru SomenoMichimasa KomatsubaraMasakatsu Toyoshima
    • Noboru SomenoMichimasa KomatsubaraMasakatsu Toyoshima
    • H03J7/28H03J1/00H03J5/02H04B1/26H04B1/06
    • H03J5/0281H03J1/005
    • In tuning apparatus, a sensor senses when a tune indicating signal has been produced by the IF section so as to enable an adjusting circuit to change the tuning condition of the apparatus by a predetermined frequency step and then to disable the adjusting circuit if the tune indicating signal still is sensed following this frequency change so as to maintain the last-attained tuning condition. Alternatively, if the tune indicating signal no longer is sensed after the tuning condition has been changed by the predetermined frequency step, the tuning section is returned to its preceding tuning condition by this predetermined frequency step. Consequently, if the received signal is a high level signal at a frequency within a predetermined range from a broadcast frequency, the tune indicating signal is produced when the tuning condition of the tuning section differs from the broadcast frequency by this predetermined frequency step; and the tuning condition then is changed by this step so as to arrive at the desired broadcast frequency. If, however, the received signal is a low level signal, the tune indicating signal is produced only when the tuning condition of the tuning section coincides with a desired broadcast frequency, and then this tuning condition is changed by one step followed by a return of one step to the proper condition.
    • 在调谐装置中,传感器感测IF部分何时产生乐曲指示信号,以使得调整电路能够以预定频率步长改变装置的调谐状态,然后如果调谐指示 在该频率变化之后仍然感测到信号,以便保持最后达到的调谐条件。 或者,如果在调谐条件已经改变了预定频率步长之后不再感测到调谐指示信号,则调谐部分通过该预定频率步长返回到其先前的调谐条件。 因此,如果接收到的信号是从广播频率的预定范围内的频率的高电平信号,则当调谐部分的调谐条件与广播频率不同的预定频率步长时,产生乐曲指示信号; 然后通过该步骤改变调谐条件,以达到所需的广播频率。 然而,如果接收到的信号是低电平信号,则仅当调谐部分的调谐条件与期望的广播频率一致时才产生调谐指示信号,然后将该调谐条件改变一个步骤,然后返回 一步到适当的条件。