每个器件都有一个八位CMOS移位寄存器和CMOS控制电路,八个CMOS数据锁存,八个双极电流吸收达林顿输出驱动器。
Each device has an eight-bit CMOS shift register and CMOS control circuitry, eight CMOS data latches, and eight bipolar current-sinking Darlington output drivers.
之后,驾驶员命令设备来完成其工作(通过操纵其寄存器)和直接在设备传送输出数据在存储器中分配的缓冲区。
Then the driver commands the device to do its job (by manipulating its registers) and the device transfers output data directly to the allocated buffer in the memory.
输出数据通过串行或并行端口从输出寄存器中存取,这可实现与现代微控制器和数字信号处理器的轻松、高速接口。
The output data is accessed from the output register through a serial or parallel port. This offers easy, high speed interfacing to modern microcontrollers and digital signal processors.
每来一个时钟脉冲,N位加法器将频率控制数据m与相位寄存器输出的累加相位数据相加,并将结果送相位寄存器输入端。
Frequency controlled data (m) plus an accumulative phase data output by a phase register in an N-bit adder when a clock pulse comes, the result is sent to the input port of the phase register.
在串行CRC编码实现中,移位寄存器主要完成将并行输人数据转换成串行输出数据的功能,是整个设计的重要组成部分。
The shift register's function is completion of parallel data input into serial data output. The design of shift register is an important part in the realization of CRC code.
在串行CRC编码实现中,移位寄存器主要完成将并行输人数据转换成串行输出数据的功能,是整个设计的重要组成部分。
The shift register's function is completion of parallel data input into serial data output. The design of shift register is an important part in the realization of CRC code.
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