译码时,只需逆向执行编码过程,得到译码输出和全零编码态。
The encoding process needs an encoded 0 state to begin with.
分析了低密度校验(LDPC)码译码所产生的错误码字中码位的译码输出量可靠度信息的统计特性。
For the detected error words by the LDPC decoder, the characteristics of code bits reliability information is investigated.
应用锁相环集成电路ne567对音频信号的鉴相原理实现对控制信号的译码输出,控制井下仪器马达工作。
The latch phase circle circuit NE567 functions as phase demodulation of audio frequency signals for realizing decoding output of the control signals to control the downhole motor operations.
伪随机码绝对式编码器采用M序列伪随机码作为编码方法,采用双狭缝技术进行分时位置读取,并采用ROM元件进行译码输出。
M sequence pseudorandom code is used for encoding the pseudorandom code absolute encoder, double slit technique is used to perform time sharing reading and ROM is used as the coding device.
首先采用译码器对输入和输出电压进行判比,确定最优的转换系数,提高了系统的效率。
The decoder determines the optimum conversion ratio to improve the efficiency of system from the relation between the input and output voltage.
结合本系统的特点,使用FPGA分别实现了数据的译码、加窗、存储、FFT、PSD和结果输出。
According to the characteristic of our system, data decoding, windowing, saving, FFT, PSD, and result output is performed by FPGA.
基于双多进值正交扩频系统非相干解调的硬判决信息不利于软输入软输出译码,提出了一种新型软判决信息提取算法。
This paper presented a novel decision scheme with soft output for SISO decoding when noncoherent receiver for dual M-ray orthogonal spreading symbols is employed.
其中包括地址缓冲、译码器、存储单元、灵敏放大器和输出缓冲电路。
The crucial path includes address buffer, decoder, memory unit, sense amplifier and output buffer.
电路包括存储阵列、译码电路、敏感放大器、数据输入输出电路,预充电电路等部分。
The whole circuit includes memory array, decode, sense amplifier, data in - out circuit and pre - charge circuit.
有能提高译码器的译码速度,减少译码延迟和输出间隔,增 大系统的数据处理能力的优点。
The invention has the advantages of enhancing the decoding speed, reducing the decoding delay and output interval and increasing the data-processing capacity of the system.
在译码显示电路输出的驱动下,显示出清晰、直观的数字符号。
Driven by decoding output circuit, it can display showing clear and intuitive figures.
最后分析了全光译码器的输出功率和输出消光比与输入泵浦光功率、探测光功率之间的关系。
Finally, it also analyzed the relationship between the input pump power and the probe optical power and its output power and output extinction ratio.
最后分析了全光译码器的输出功率和输出消光比与输入泵浦光功率、探测光功率之间的关系。
Finally, it also analyzed the relationship between the input pump power and the probe optical power and its output power and output extinction ratio.
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