在通信协议中,主要实现了双向数据缓冲器、数据移位寄存器、时钟控制电路以及奇偶校验等功能。
The protocol realized some functions, such as two-way data buffer, shift register, clock circuit and parity check.
这就是移位寄存器,因为数据在每一个时钟脉冲的作用下通过寄存器会移动一位。
It is called a shift register because the data is shifted through the register by one bit position on each clock pulse.
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.
该数据选通器主要由CMOS传输门和CMOS移位寄存器构成,能同时适用于数字信号与模拟信号。
This device is constituted by CMOS transmission and CMOS shift register and is able to apply to the digital signal and analog signal at the same time.
主从机数据均在SPICLK的一个边沿移出移位寄存器,在另一个边沿锁存到移位寄存器。
The data is sent out from the shift register on one edge of the SPICLK and received on another.
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.
最后,”一丝不苟”VI使用大量移位寄存器在一个循环内反复传递数据,在多个并行循环间使用队列传递数据。
Finally, Meticulous VI makes extensive use of shift registers for passing data between loop iterations, and queues for passing data between parallel loops.
最后,”一丝不苟”VI使用大量移位寄存器在一个循环内反复传递数据,在多个并行循环间使用队列传递数据。
Finally, Meticulous VI makes extensive use of shift registers for passing data between loop iterations, and queues for passing data between parallel loops.
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