译码电路接收测量端模拟信号,转化为7段显示的数字信号,发送到数据锁存器上。
The A/D decoding circuit received simulation signal form measurement port and converted the signals into data signals which displayed by 7-segment, then signals were sent to data latch.
控制电路翻译操作码,并且通过发送相应的控制信号来执行指令。这些信号控制数据的传送和ALU操作的执行。
Control circuitry interprets the opcode and executes the instruction by sending out the appropriate control signals to cause data to be moved or an operation to be performed by the ALU.
详细阐述发送电路、接收通道电路、数据采集电路、万用表电路的设计。
It explicates design of transmitting circuit, receiving channel circuit, data acquisition circuit and multimeter circuit.
介绍了基于SJA1000的CAN总线接口电路的软硬件设计方法,给出了CAN总线接口电路、SJA1000初始化程序、接收及发送数据程序的框图。
This paper discusses the designing method of CAN bus juncture circuit based on SJA1000 and presents the CAN bus juncture circuit, the SJA1000 initialization programme and the flow charts.
该设计大幅简化发射端电路,提高了数据发送速率,并使数据发送速率可灵活调整。
It is demonstrated that the new design not only reduces the circuit greatly, but also enhances the transmitting-speed, which can be modified flexibly.
在发送端时钟频率随时间变化的情况下,以较低的成本和较简单的电路实现,保证了接收端采样数据及音频数据恢复的准确性。
Because clocking frequency of sending terminal is changed with times at lower cost and simple circuit, accuracy of receiving end sampled data and audio - data recovery is assured.
在发送端时钟频率随时间变化的情况下,以较低的成本和较简单的电路实现,保证了接收端采样数据及音频数据恢复的准确性。
Because clocking frequency of sending terminal is changed with times at lower cost and simple circuit, accuracy of receiving end sampled data and audio - data recovery is assured.
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